TW202116888A - Polarizing membrane production method and polarizing film production method - Google Patents

Polarizing membrane production method and polarizing film production method Download PDF

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TW202116888A
TW202116888A TW109132391A TW109132391A TW202116888A TW 202116888 A TW202116888 A TW 202116888A TW 109132391 A TW109132391 A TW 109132391A TW 109132391 A TW109132391 A TW 109132391A TW 202116888 A TW202116888 A TW 202116888A
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polarizing film
liquid
aforementioned
manufacturing
polyvinyl alcohol
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TW109132391A
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黑田拓馬
山下智弘
八木汐海
高田勝則
宮崎真
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日商日東電工股份有限公司
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Abstract

A polarizing membrane production method that includes: a step (I-1) in which at least a staining process, a cross-linking process, and an extending process are applied to a polyvinyl alcohol-based film, while the polyvinyl alcohol-based film is transported in the longitudinal direction, and a water-containing polarizing membrane is produced; a step (I-2) in which a liquid coating process is applied to the water-containing polarizing membrane and a polarizing membrane impregnated with components in the liquid is produced; and a step (I-3) in which a drying process is applied to the obtained polarizing membrane impregnated with the components in the liquid and a dried polarizing membrane is produced. The water-containing polarizing membrane has a contact angle for the liquid that is no more than 55 DEG. This production method for a polarizing membrane can easily and sufficiently impregnate the polarizing membrane with any component.

Description

偏光膜之製造方法及偏光薄膜之製造方法Manufacturing method of polarizing film and manufacturing method of polarizing film

本發明涉及偏光膜之製造方法及偏光薄膜之製造方法。The present invention relates to a manufacturing method of a polarizing film and a manufacturing method of a polarizing film.

以往,用於液晶顯示裝置或有機EL顯示裝置等各種影像顯示裝置之偏光膜(偏光件),出於兼具高透射率與高偏光度而使用經染色處理之(含有碘或二色性染料等二色性物質之)聚乙烯醇系薄膜。該偏光膜係於浴(處理浴)中對聚乙烯醇系薄膜施行例如染色、交聯、延伸等各處理後進行乾燥來製造。又,前述偏光膜通常係以於其單面或兩面使用接著劑貼合有三醋酸纖維素等之保護薄膜的偏光薄膜(偏光板)之形式來使用。In the past, polarizing films (polarizers) used in various image display devices such as liquid crystal display devices and organic EL display devices have been dyed (containing iodine or dichroic dyes) to have both high transmittance and high polarization. Other dichroic substances) polyvinyl alcohol film. The polarizing film is manufactured by subjecting the polyvinyl alcohol-based film to various treatments such as dyeing, crosslinking, and stretching in a bath (treatment bath), and then drying. In addition, the aforementioned polarizing film is usually used in the form of a polarizing film (polarizing plate) in which a protective film such as cellulose triacetate is bonded to one or both sides using an adhesive.

作為偏光膜之製造方法,例如專利文獻1~2中揭示了藉由將包含鋅、銅、鋁等之金屬鹽等成分添加至處理浴中,使偏光膜中含有該等成分,以使偏光膜之耐久特性提升。又,專利文獻3~4中揭示一種將有機鈦化合物等成分添加至處理浴中的偏光膜之製造方法。 先前技術文獻 專利文獻As a manufacturing method of a polarizing film, for example, Patent Documents 1 to 2 disclose that by adding components such as metal salts such as zinc, copper, aluminum, etc., to a treatment bath, the polarizing film contains these components to make the polarizing film The durability characteristics are improved. In addition, Patent Documents 3 to 4 disclose a method of manufacturing a polarizing film in which components such as an organic titanium compound are added to a treatment bath. Prior art literature Patent literature

專利文獻1:國際公開第2016/117659號 專利文獻2:日本專利特開2006-047978號公報 專利文獻3:日本專利特開2008-46257號公報 專利文獻4:日本專利特開平6-172554號公報Patent Document 1: International Publication No. 2016/117659 Patent Document 2: Japanese Patent Laid-Open No. 2006-047978 Patent Document 3: Japanese Patent Laid-Open No. 2008-46257 Patent Document 4: Japanese Patent Laid-Open No. 6-172554

發明欲解決之課題 然而,在偏光膜之製造方法中,在將如上述之成分添加於處理浴中時,會有其使用量變得龐大、需要進行處理液之廢液處理等問題。The problem to be solved by the invention However, in the manufacturing method of the polarizing film, when the above-mentioned components are added to the treatment bath, there will be problems such as a huge usage amount and the need for waste liquid treatment of the treatment liquid.

有鑑於如以上所述情事,本發明之目的即在於提供可簡便且充分使偏光膜含有任意成分之偏光膜之製造方法。In view of the above-mentioned circumstances, the object of the present invention is to provide a method for manufacturing a polarizing film that can easily and sufficiently contain any components in the polarizing film.

並且,本發明之目的在於提供一種偏光薄膜之製造方法,其使用了以上述偏光膜之製造方法獲得之偏光膜。Furthermore, an object of the present invention is to provide a method for manufacturing a polarizing film, which uses the polarizing film obtained by the above-mentioned method for manufacturing a polarizing film.

用以解決課題之手段 亦即,本發明涉及一種偏光膜之製造方法,其包含以下步驟:步驟(I-1),係一邊將聚乙烯醇系薄膜沿長邊方向輸送,一邊對前述聚乙烯醇系薄膜施行至少染色步驟、交聯步驟及延伸步驟,而製造含有水之偏光膜;步驟(I-2),係對所得含有水之偏光膜施行塗佈液體之步驟,而製造浸潤有液體中之成分的偏光膜;及步驟(I-3),對所得浸潤有液體中之成分的偏光膜施行乾燥步驟,而製造乾燥後之偏光膜;並且,前述含有水之偏光膜之前述液體之接觸角為55°以下。Means to solve the problem That is, the present invention relates to a method of manufacturing a polarizing film, which includes the following steps: step (I-1), while transporting the polyvinyl alcohol-based film in the longitudinal direction, at least dyeing the polyvinyl alcohol-based film Step, cross-linking step and extension step to produce a polarizing film containing water; step (I-2) is a step of applying a liquid to the polarizing film containing water to produce a polarizing film impregnated with the components in the liquid ; And step (I-3), the obtained polarizing film impregnated with the components in the liquid is subjected to a drying step to produce a dried polarizing film; and the contact angle of the aforementioned liquid of the aforementioned polarizing film containing water is 55° or less .

亦即,本發明涉及一種偏光膜之製造方法,其包含以下步驟:步驟(II-0),係於長條狀熱塑性樹脂基材之單側形成含聚乙烯醇系樹脂之聚乙烯醇系樹脂層來準備積層體;步驟(II-1),係一邊將所得積層體沿長邊方向輸送,一邊對前述積層體施行至少空中輔助延伸處理步驟、染色處理步驟及水中延伸處理步驟,而製造具有含有水之偏光膜的積層體;步驟(II-2),係對所得具有含有水之偏光膜的積層體施行塗佈液體之步驟,而製造具有浸潤有液體中之成分的偏光膜之積層體;及步驟(II-3),對所得具有浸潤有液體中之成分的偏光膜之積層體施行乾燥處理步驟,而製造乾燥後之偏光膜;並且,前述具有含有水之偏光膜的積層體中之偏光膜之前述液體之接觸角為55°以下。That is, the present invention relates to a method of manufacturing a polarizing film, which includes the following steps: step (II-0), forming a polyvinyl alcohol-based resin containing a polyvinyl alcohol-based resin on one side of a long-shaped thermoplastic resin substrate Layer to prepare a layered body; step (II-1), while transporting the resulting layered body in the longitudinal direction, at least an aerial auxiliary stretching process step, a dyeing process step, and an underwater stretching process step are performed on the foregoing layered body to produce A laminate of a polarizing film containing water; step (II-2) is a step of applying a liquid to the obtained laminate having a polarizing film containing water to produce a laminate with a polarizing film impregnated in the liquid And step (II-3), the obtained laminate with the polarizing film soaked in the liquid is subjected to a drying treatment step to produce a dried polarizing film; and, the foregoing laminate with a polarizing film containing water The contact angle of the aforementioned liquid of the polarizing film is 55° or less.

又,本發明涉及一種偏光薄膜之製造方法,其包含以下步驟:於以前述偏光膜之製造方法獲得之偏光膜之至少單面透過接著劑層貼合透明保護薄膜。In addition, the present invention relates to a method for manufacturing a polarizing film, which includes the following steps: laminating a transparent protective film on at least one side of the polarizing film obtained by the foregoing method for manufacturing a polarizing film through an adhesive layer.

發明效果 雖本發明偏光膜之製造方法之效果的作用機制的細節尚有不明瞭的部分,但吾等推測如下。惟,本發明亦可不限定以該作用機制解釋。Invention effect Although the details of the mechanism of the effect of the manufacturing method of the polarizing film of the present invention are still unclear, we guess as follows. However, the present invention may not be limited to be interpreted by this mechanism of action.

本發明偏光膜之製造方法包含以下步驟:步驟(I-1),係一邊將聚乙烯醇系薄膜沿長邊方向輸送,一邊對前述聚乙烯醇系薄膜施行至少染色步驟、交聯步驟及延伸步驟,而製造含有水之偏光膜;步驟(I-2),係對所得含有水之偏光膜施行塗佈液體之步驟,而製造浸潤有液體中之成分的偏光膜;及步驟(I-3),對所得浸潤有液體中之成分的偏光膜施行乾燥步驟,而製造乾燥後之偏光膜;並且,前述含有水之偏光膜之前述液體之接觸角為55°以下。或者,本發明偏光膜之製造方法包含以下步驟:步驟(II-0),係於長條狀熱塑性樹脂基材之單側形成含聚乙烯醇系樹脂之聚乙烯醇系樹脂層來準備積層體;步驟(II-1),係一邊將所得積層體沿長邊方向輸送,一邊對前述積層體施行至少空中輔助延伸處理步驟、染色處理步驟及水中延伸處理步驟,而製造具有含有水之偏光膜的積層體;步驟(II-2),係對所得具有含有水之偏光膜的積層體施行塗佈液體之步驟,而製造具有浸潤有液體中之成分的偏光膜之積層體;及步驟(II-3),對所得具有浸潤有液體中之成分的偏光膜之積層體施行乾燥處理步驟,而製造乾燥後之偏光膜;並且,前述具有含有水之偏光膜的積層體中之偏光膜之前述液體之接觸角為55°以下。以往之偏光膜之製造方法中,係在對聚乙烯醇系薄膜施行至少染色步驟、交聯步驟及延伸步驟後,接著施行乾燥步驟。或者,在以往之偏光膜之製造方法中,包含一於長條狀熱塑性樹脂基材之單側形成含聚乙烯醇系樹脂之聚乙烯醇系樹脂層來準備積層體的步驟,並且對所得積層體施行至少空中輔助延伸處理步驟、染色處理步驟及水中延伸處理步驟後,接著施行乾燥處理步驟。另一方面,在本發明偏光膜之製造方法中,如上所述,係製造含有水之偏光膜、或具有含有水之偏光膜的積層體。該含有水之偏光膜或具有含有水之偏光膜的積層體中之偏光膜之前述液體之接觸角為55°以下,因此可簡便且充分使該含有水之偏光膜浸潤液體中所含之任意成分。The manufacturing method of the polarizing film of the present invention includes the following steps: step (I-1), while transporting the polyvinyl alcohol-based film in the longitudinal direction, at least the dyeing step, the cross-linking step, and the stretching are performed on the polyvinyl alcohol-based film. Step, to manufacture a polarizing film containing water; step (I-2), to apply a liquid coating step to the obtained polarizing film containing water to produce a polarizing film impregnated with the components in the liquid; and step (I-3 ), the obtained polarizing film impregnated with the components in the liquid is subjected to a drying step to produce a dried polarizing film; and the contact angle of the liquid of the polarizing film containing water is 55° or less. Alternatively, the manufacturing method of the polarizing film of the present invention includes the following steps: step (II-0), forming a polyvinyl alcohol-based resin layer containing polyvinyl alcohol-based resin on one side of a long-shaped thermoplastic resin substrate to prepare a laminate ; Step (II-1), while transporting the resulting laminate in the longitudinal direction, at least the above-mentioned laminate is subjected to at least an aerial auxiliary extension treatment step, a dyeing treatment step, and an underwater extension treatment step to produce a polarizing film containing water Step (II-2) is a step of applying a liquid to the resulting layered body with a polarizing film containing water to produce a layered body with a polarizing film impregnated with components in the liquid; and step (II -3) Perform a drying treatment step on the obtained laminate having a polarizing film impregnated with a component in a liquid to produce a dried polarizing film; and, the foregoing of the polarizing film in the laminate having a polarizing film containing water The contact angle of the liquid is below 55°. In the conventional polarizing film manufacturing method, after performing at least a dyeing step, a cross-linking step, and a stretching step on the polyvinyl alcohol-based film, a drying step is then performed. Alternatively, the conventional polarizing film manufacturing method includes a step of forming a polyvinyl alcohol-based resin layer containing a polyvinyl alcohol-based resin on one side of a long-shaped thermoplastic resin substrate to prepare a laminate, and the obtained laminate After the body has been subjected to at least an aerial auxiliary extension treatment step, a dyeing treatment step, and an underwater extension treatment step, a drying treatment step is then performed. On the other hand, in the manufacturing method of the polarizing film of the present invention, as described above, a water-containing polarizing film or a laminate having a water-containing polarizing film is manufactured. The contact angle of the aforementioned liquid of the polarizing film in the polarizing film containing water or the laminated body with the polarizing film containing water is 55° or less, so the polarizing film containing water can be easily and sufficiently wetted with any of the liquid contained in the polarizing film ingredient.

<偏光膜之製造方法> 本發明偏光膜之製造方法包含以下步驟:步驟(I-1),係一邊將聚乙烯醇系薄膜沿長邊方向輸送,一邊對前述聚乙烯醇系薄膜施行至少染色步驟、交聯步驟及延伸步驟,而製造含有水之偏光膜;步驟(I-2),係對所得含有水之偏光膜施行塗佈液體之步驟,而製造浸潤有液體中之成分的偏光膜;及步驟(I-3),對所得浸潤有液體中之成分的偏光膜施行乾燥步驟,而製造乾燥後之偏光膜;並且,前述含有水之偏光膜之前述液體之接觸角為55°以下。<Manufacturing method of polarizing film> The manufacturing method of the polarizing film of the present invention includes the following steps: step (I-1), while transporting the polyvinyl alcohol-based film in the longitudinal direction, at least the dyeing step, the cross-linking step, and the stretching are performed on the polyvinyl alcohol-based film. Step, to manufacture a polarizing film containing water; step (I-2), to apply a liquid coating step to the obtained polarizing film containing water to produce a polarizing film impregnated with the components in the liquid; and step (I-3 ), the obtained polarizing film impregnated with the components in the liquid is subjected to a drying step to produce a dried polarizing film; and the contact angle of the liquid of the polarizing film containing water is 55° or less.

<製造含有水之偏光膜的步驟(I-1)> 本發明偏光膜之製造方法包含步驟(I-1),其係一邊將聚乙烯醇系薄膜沿長邊方向輸送,一邊對前述聚乙烯醇系薄膜施行至少染色步驟、交聯步驟及延伸步驟,而製造含有水之偏光膜。<Procedure of producing polarizing film containing water (I-1)> The manufacturing method of the polarizing film of the present invention includes the step (I-1) of carrying out at least a dyeing step, a cross-linking step, and a stretching step on the polyvinyl alcohol-based film while transporting the polyvinyl alcohol-based film in the longitudinal direction. And to produce polarizing film containing water.

前述聚乙烯醇(PVA)系薄膜可無特別限制地使用在可見光區域具有透光性且可分散吸附碘或二色性染料等二色性物質者。又,一般作為原板使用之PVA系薄膜之厚度宜為1~100μm左右,1~50μm左右較佳,而寬度宜為100~5000mm左右。The above-mentioned polyvinyl alcohol (PVA)-based film can be used without particular limitation that has translucency in the visible light region and can dispersely absorb dichroic substances such as iodine or dichroic dyes. In addition, the thickness of the PVA-based film generally used as the original plate is preferably about 1 to 100 μm, preferably about 1 to 50 μm, and the width is preferably about 100 to 5000 mm.

作為前述聚乙烯醇系薄膜的材料,可舉聚乙烯醇或其衍生物。前述聚乙烯醇之衍生物可舉例如聚乙烯醇縮甲醛、聚乙烯縮醛;經乙烯、丙烯等烯烴、丙烯酸、甲基丙烯酸、巴豆酸等不飽和羧酸及其烷基酯、丙烯酸醯胺等改質者等。前述聚乙烯醇之平均聚合度宜為100~10,000左右,1,000~10,000左右較佳,1,500~4,500左右更佳。又,前述聚乙烯醇之皂化度宜為80~100莫耳%左右,95莫耳%~99.95莫耳左右較佳。另,前述平均聚合度及前述皂化度可依循JIS K 6726求得。Examples of the material of the polyvinyl alcohol-based film include polyvinyl alcohol or derivatives thereof. Examples of the aforementioned derivatives of polyvinyl alcohol include polyvinyl formal and polyvinyl acetal; olefins such as ethylene and propylene, unsaturated carboxylic acids such as acrylic acid, methacrylic acid, and crotonic acid and their alkyl esters, and amide acrylates. Waiting for reformers, etc. The average degree of polymerization of the aforementioned polyvinyl alcohol is preferably about 100 to 10,000, preferably about 1,000 to 10,000, and more preferably about 1,500 to 4,500. In addition, the degree of saponification of the aforementioned polyvinyl alcohol is preferably about 80 to 100 mol%, preferably about 95 mol% to 99.95 mol%. In addition, the aforementioned average polymerization degree and the aforementioned saponification degree can be obtained in accordance with JIS K 6726.

前述聚乙烯醇系薄膜中亦可含有塑化劑或界面活性劑等添加劑。前述塑化劑可舉例如甘油、二甘油、三甘油、乙二醇、丙二醇、聚乙二醇等多元醇及其縮合物等。前述添加劑之使用量無特別限制,但例如宜在聚乙烯醇系薄膜中為20重量%以下左右。The aforementioned polyvinyl alcohol-based film may also contain additives such as plasticizers and surfactants. Examples of the plasticizer include polyhydric alcohols such as glycerin, diglycerin, triglycerin, ethylene glycol, propylene glycol, and polyethylene glycol, and condensates thereof. The use amount of the aforementioned additives is not particularly limited, but for example, it is preferably about 20% by weight or less in a polyvinyl alcohol-based film.

<染色步驟> 前述染色步驟係將聚乙烯醇系薄膜浸漬於染色浴之處理步驟,其可使碘或二色性染料等二色性物質吸附、定向於聚乙烯醇系薄膜。前述染色液一般宜為碘水溶液,且含有碘及作為溶解助劑之碘化物。此外,前述碘化物可舉:碘化鉀、碘化鋰、碘化鈉、碘化鋅、碘化鋁、碘化鉛、碘化銅、碘化鋇、碘化鈣、碘化錫、碘化鈦等。該等中又以碘化鉀為佳。<Dyeing steps> The aforementioned dyeing step is a treatment step of immersing the polyvinyl alcohol-based film in a dyeing bath, which allows dichroic substances such as iodine or dichroic dyes to be adsorbed and oriented on the polyvinyl alcohol-based film. The aforementioned dyeing solution is generally an aqueous solution of iodine, and contains iodine and iodide as a dissolution aid. In addition, the aforementioned iodide may include potassium iodide, lithium iodide, sodium iodide, zinc iodide, aluminum iodide, lead iodide, copper iodide, barium iodide, calcium iodide, tin iodide, titanium iodide, etc. . Among these, potassium iodide is preferred.

前述染色浴中,碘濃度宜為0.01~1重量%左右,0.02~0.5重量%左右較佳。前述染色浴中,前述碘化物之濃度宜為0.01~10重量%左右,0.05~5重量%左右較佳。In the aforementioned dyeing bath, the iodine concentration is preferably about 0.01 to 1% by weight, preferably about 0.02 to 0.5% by weight. In the dyeing bath, the concentration of the iodide is preferably about 0.01 to 10% by weight, preferably about 0.05 to 5% by weight.

前述染色浴之溫度宜為10~50℃左右,15~45℃左右較佳。又,因聚乙烯醇系薄膜之染色程度會受染色浴溫度的影響,故浸漬於前述染色浴之浸漬時間不能一概決定,而宜為10~300秒鐘左右,20~240秒鐘左右較佳。前述染色步驟可僅實施1次,亦可因應需要實施複數次。The temperature of the aforementioned dyeing bath is preferably about 10~50℃, preferably about 15~45℃. In addition, since the degree of dyeing of the polyvinyl alcohol-based film is affected by the temperature of the dyeing bath, the immersion time for immersion in the aforementioned dyeing bath cannot be determined uniformly, and it is preferably about 10 to 300 seconds, preferably about 20 to 240 seconds . The aforementioned dyeing step can be performed only once, or multiple times as needed.

<交聯步驟> 前述交聯步驟係將經前述染色步驟染色之聚乙烯醇系薄膜浸漬於含硼化合物之處理浴(交聯浴)中的處理步驟,可透過硼化合物使聚乙烯醇系薄膜交聯而將碘分子或染料分子吸附至該交聯結構。前述硼化合物可舉例如硼酸、硼酸鹽、硼砂等。前述交聯浴一般為水溶液,但例如亦可為與水有混合性之有機溶劑及水的混合溶液。又,前述交聯浴可包含碘化鉀等碘化物。<Cross-linking step> The aforementioned cross-linking step is a treatment step in which the polyvinyl alcohol-based film dyed by the aforementioned dyeing step is immersed in a treatment bath (cross-linking bath) containing a boron compound. The boron compound can cross-link the polyvinyl alcohol-based film to remove iodine. Molecules or dye molecules are adsorbed to the cross-linked structure. Examples of the aforementioned boron compound include boric acid, borate, and borax. The aforementioned crosslinking bath is generally an aqueous solution, but for example, it may be a mixed solution of an organic solvent and water that is miscible with water. In addition, the crosslinking bath may contain iodides such as potassium iodide.

前述交聯浴中,前述硼化合物之濃度宜為1~15重量%左右,1.5~10重量%左右較佳,2~5重量%左右更佳。又,於前述交聯浴中使用碘化鉀等碘化物時,前述交聯浴中碘化鉀等碘化物之濃度宜為1~15重量%左右,1.5~10重量%左右較佳。In the aforementioned crosslinking bath, the concentration of the aforementioned boron compound is preferably about 1 to 15% by weight, preferably about 1.5 to 10% by weight, and more preferably about 2 to 5% by weight. Moreover, when iodides such as potassium iodide are used in the cross-linking bath, the concentration of iodides such as potassium iodide in the cross-linking bath is preferably about 1 to 15% by weight, preferably about 1.5 to 10% by weight.

前述交聯浴之溫度宜為20~70℃左右,30~60℃左右較佳。又,因聚乙烯醇系薄膜之交聯程度會受交聯浴溫度的影響,故浸漬於前述交聯浴之浸漬時間不能一概決定,而宜為5~300秒鐘左右,10~200秒鐘左右較佳。前述交聯步驟可僅實施1次,亦可因應需要實施複數次。The temperature of the aforementioned crosslinking bath is preferably about 20 to 70°C, preferably about 30 to 60°C. In addition, since the degree of crosslinking of the polyvinyl alcohol-based film is affected by the temperature of the crosslinking bath, the immersion time for immersion in the aforementioned crosslinking bath cannot be determined uniformly, but is preferably about 5 to 300 seconds, 10 to 200 seconds Left and right are better. The aforementioned cross-linking step can be performed only once, or multiple times as needed.

<延伸步驟> 前述延伸步驟係將聚乙烯醇系薄膜沿至少一方向延伸預定倍率的處理步驟。一般而言,係將聚乙烯醇系薄膜沿輸送方向(長邊方向)進行單軸延伸。前述延伸方法並無特別限制,可採用濕潤延伸法與乾式延伸法中之任一方法。前述延伸步驟可僅實施1次,亦可因應需要實施複數次。前述延伸步驟可於偏光膜之製造中在任一階段進行。<Extension steps> The aforementioned stretching step is a processing step of stretching the polyvinyl alcohol-based film in at least one direction at a predetermined magnification. In general, the polyvinyl alcohol-based film is uniaxially stretched in the conveying direction (long-side direction). The aforementioned extension method is not particularly limited, and any one of a wet extension method and a dry extension method can be used. The aforementioned extension step can be performed only once, or multiple times as needed. The aforementioned stretching step can be performed at any stage in the manufacture of the polarizing film.

前述濕潤延伸法之處理浴(延伸浴)一般可使用水或與水有混合性之有機溶劑及水的混合溶液等之溶劑。前述延伸浴宜包含碘化鉀等碘化物。於前述延伸浴中使用碘化鉀等碘化物時,該延伸浴中碘化鉀等碘化物之濃度宜為1~15重量%左右,2~10重量%左右較佳。又,為了提升交聯度,前述處理浴(延伸浴)中可包含前述硼化合物,此時該延伸浴中前述硼化合物之濃度宜為1~15重量%左右,1.5~10重量%左右較佳。The treatment bath (extension bath) of the aforementioned wet extension method generally can use a solvent such as water or an organic solvent miscible with water and a mixed solution of water. The aforementioned extension bath preferably contains iodides such as potassium iodide. When an iodide such as potassium iodide is used in the aforementioned stretching bath, the concentration of the iodide such as potassium iodide in the stretching bath is preferably about 1 to 15% by weight, preferably about 2 to 10% by weight. In addition, in order to increase the degree of cross-linking, the aforementioned treatment bath (stretching bath) may contain the aforementioned boron compound. In this case, the concentration of the aforementioned boron compound in the stretching bath is preferably about 1-15% by weight, preferably about 1.5-10% by weight. .

前述延伸浴之溫度宜為25~80℃左右,40~75℃左右較佳。又,因聚乙烯醇系薄膜之延伸程度會受延伸浴溫度之影響,故浸漬於前述延伸浴之浸漬時間不能一概決定,而宜為10~800秒鐘左右,30~500秒鐘左右較佳。此外,前述濕潤延伸法之延伸處理亦可與前述染色步驟、前述交聯步驟、後述膨潤步驟及後述洗淨步驟中之任1個以上處理步驟一同施行。The temperature of the aforementioned extension bath is preferably about 25 to 80°C, preferably about 40 to 75°C. Also, since the degree of extension of the polyvinyl alcohol-based film is affected by the temperature of the extension bath, the immersion time for immersion in the aforementioned extension bath cannot be determined at all. It is preferably about 10 to 800 seconds, preferably about 30 to 500 seconds. . In addition, the stretching treatment of the aforementioned wet stretching method may be performed together with any one or more treatment steps of the aforementioned dyeing step, the aforementioned cross-linking step, the later-mentioned swelling step, and the later-mentioned washing step.

前述乾式延伸法可舉例如輥間延伸方法、加熱輥延伸方法、壓縮延伸方法等。此外,前述乾式延伸法亦可與後述乾燥步驟一同施行。Examples of the aforementioned dry stretching method include an inter-roll stretching method, a heated roll stretching method, and a compression stretching method. In addition, the aforementioned dry stretching method can also be performed together with the drying step described later.

施於前述聚乙烯醇系薄膜之總延伸倍率(累積延伸倍率)可因應目的適當設定,而宜為2~7倍左右,3~6.8倍左右較佳,3.5~6.5倍左右更佳。The total stretching ratio (cumulative stretching ratio) applied to the aforementioned polyvinyl alcohol-based film can be appropriately set according to the purpose, and is preferably about 2 to 7 times, preferably about 3 to 6.8 times, and more preferably about 3.5 to 6.5 times.

製造前述含有水之偏光膜的步驟中,對前述聚乙烯醇系薄膜除了施行前述染色步驟、前述交聯步驟及前述延伸步驟外,可施行膨潤步驟,亦可施行洗淨步驟。In the step of producing the water-containing polarizing film, in addition to the dyeing step, the crosslinking step, and the stretching step, the polyvinyl alcohol-based film may be subjected to a swelling step or a washing step.

<膨潤步驟> 前述膨潤步驟係將聚乙烯醇系薄膜浸漬於膨潤浴中之處理步驟,其可去除聚乙烯醇系薄膜表面的污垢及抗結塊劑,並且,使聚乙烯醇系薄膜膨潤可抑制染色參差。前述膨潤浴一般可使用水、蒸餾水、純水等以水為主成分之介質。前述膨潤浴亦可依循一般方法適當添加有界面活性劑、醇等。<Swelling step> The aforementioned swelling step is a treatment step of immersing the polyvinyl alcohol-based film in a swelling bath, which can remove dirt and anti-caking agents on the surface of the polyvinyl alcohol-based film, and swelling the polyvinyl alcohol-based film can suppress uneven dyeing. The aforementioned swelling bath generally can use water, distilled water, pure water and other media with water as the main component. The aforementioned swelling bath can also be appropriately added with surfactants, alcohols, etc. according to general methods.

前述膨潤浴之溫度宜為10~60℃左右,15~45℃左右較佳。又,因聚乙烯醇系薄膜之膨潤程度會受膨潤浴溫度的影響,故浸漬於前述膨潤浴之浸漬時間不能一概決定,而宜為5~300秒鐘左右,10~200秒鐘左右較佳。前述膨潤步驟可僅實施1次,亦可因應需要實施複數次。The temperature of the aforementioned swelling bath is preferably about 10~60°C, preferably about 15~45°C. In addition, since the degree of swelling of the polyvinyl alcohol-based film is affected by the temperature of the swelling bath, the immersion time for immersion in the aforementioned swelling bath cannot be determined uniformly. It is preferably about 5 to 300 seconds, preferably about 10 to 200 seconds. . The aforementioned swelling step can be implemented only once, or multiple times as needed.

<洗淨步驟> 前述洗淨步驟係將聚乙烯醇系薄膜浸漬於洗淨浴中的處理步驟,其可去除殘存於聚乙烯醇系薄膜表面等的異物。前述洗淨浴一般可使用水、蒸餾水、純水等以水為主成分之介質。又,可於前述洗淨浴中使用碘化鉀等碘化物,此時前述洗淨浴中碘化鉀等碘化物之濃度宜為1~10重量%左右,2~4重量%左右較佳,1.6~3.8重量%左右更佳。<Washing step> The aforementioned washing step is a processing step of immersing the polyvinyl alcohol-based film in a washing bath, which can remove foreign substances remaining on the surface of the polyvinyl alcohol-based film. The aforementioned washing bath generally can use a medium containing water as the main component, such as water, distilled water, and pure water. In addition, potassium iodide and other iodides can be used in the aforementioned washing bath. In this case, the concentration of potassium iodide and other iodides in the aforementioned washing bath is preferably about 1-10% by weight, preferably about 2-4% by weight, and 1.6-3.8% by weight. Around% is better.

前述洗淨浴之溫度宜為5~50℃左右,10~40℃左右較佳,15~30℃左右更佳。又,因聚乙烯醇系薄膜之洗淨程度會受洗淨浴溫度之影響,故浸漬於前述洗淨浴之浸漬時間不能一概決定,而宜為1~100秒鐘左右,2~50秒鐘左右較佳,3~20秒鐘左右更佳。前述膨潤步驟可僅實施1次,亦可因應需要實施複數次。The temperature of the aforementioned washing bath is preferably about 5-50°C, preferably about 10-40°C, and more preferably about 15-30°C. In addition, since the degree of washing of the polyvinyl alcohol-based film is affected by the temperature of the washing bath, the immersion time for immersion in the aforementioned washing bath cannot be determined uniformly. It is preferably about 1-100 seconds, 2-50 seconds Left and right are better, preferably about 3 to 20 seconds. The aforementioned swelling step can be implemented only once, or multiple times as needed.

並且,前述膨潤步驟、前述染色步驟、前述交聯步驟、前述延伸步驟及前述洗淨步驟中之各處理浴中亦可含有如鋅鹽、pH調整劑、pH緩衝劑、其他鹽類之添加劑。前述鋅鹽可舉例如氯化鋅、碘化鋅等鹵化鋅;硫酸鋅、乙酸鋅等無機鋅鹽等。前述pH調整劑可舉例如鹽酸、硫酸、硝酸等強酸或氫氧化鈉、氫氧化鉀等強鹼。前述pH緩衝劑可舉例如乙酸、草酸、檸檬酸等羧酸及其鹽、或如磷酸、碳酸之無機弱酸及其鹽。前述其他鹽類可舉例如氯化鈉、氯化鉀、氯化鋇等氯化物、如硝酸鈉、硝酸鉀之硝酸鹽、如硫酸鈉、硫酸鉀之硫酸鹽及鹼金屬、鹼土族金屬之鹽等。In addition, each treatment bath in the aforementioned swelling step, the aforementioned dyeing step, the aforementioned cross-linking step, the aforementioned extension step, and the aforementioned washing step may also contain additives such as zinc salt, pH adjusting agent, pH buffering agent, and other salts. Examples of the aforementioned zinc salt include zinc halides such as zinc chloride and zinc iodide; and inorganic zinc salts such as zinc sulfate and zinc acetate. Examples of the pH adjuster include strong acids such as hydrochloric acid, sulfuric acid, and nitric acid, or strong bases such as sodium hydroxide and potassium hydroxide. Examples of the aforementioned pH buffering agent include carboxylic acids and their salts such as acetic acid, oxalic acid, and citric acid, or weak inorganic acids such as phosphoric acid and carbonic acid and their salts. The aforementioned other salts include, for example, chlorides such as sodium chloride, potassium chloride, and barium chloride, nitrates such as sodium nitrate, potassium nitrate, sulfates such as sodium sulfate, potassium sulfate, and salts of alkali metals and alkaline earth metals. Wait.

<製造浸潤有液體中之成分的偏光膜的步驟(I-2)> 本發明偏光膜之製造方法包含步驟(I-2),其係對在上述所得含有水之偏光膜施行塗佈液體之步驟,而製造浸潤有液體中之成分的偏光膜。於此,前述液體中之成分通常係溶液中所含之溶質。又,溶質只要為可於溶劑中溶解或分散等之物質即可,單體的化合物亦可為氣態物質、液態物質、固態物質中之任一者。此外,溶質為液態物質(例如25℃、1大氣壓之條件下)時,液態物質自身(液態物質本身)亦可為液體及液體中之成分。<Step of manufacturing polarizing film impregnated with liquid components (I-2)> The manufacturing method of the polarizing film of the present invention includes the step (I-2), which is a step of applying a liquid to the polarizing film containing water obtained above to produce a polarizing film impregnated with components in the liquid. Here, the components in the aforementioned liquid are usually the solutes contained in the solution. In addition, the solute only needs to be a substance that can be dissolved or dispersed in a solvent, and the monomer compound may be any of a gaseous substance, a liquid substance, and a solid substance. In addition, when the solute is a liquid substance (for example, under the conditions of 25° C. and 1 atmosphere), the liquid substance itself (the liquid substance itself) can also be a liquid and a component in the liquid.

在前述步驟(I-2)中,由可易使液體中所含成分浸潤而更容易往偏光膜之厚度方向滲透之觀點來看,宜為偏光膜的水分率為20重量%以上之狀態,偏光膜之水分率為22重量%以上之狀態較佳,偏光膜之水分率為25重量%以上之狀態更佳,而由防止輸送時之皺褶之觀點來看,宜為偏光膜之水分率為70重量%以下之狀態,偏光膜之水分率為60重量%以下之狀態較佳。In the foregoing step (I-2), from the viewpoint that the components contained in the liquid can be easily infiltrated and penetrate into the thickness direction of the polarizing film more easily, it is preferable that the water content of the polarizing film is 20% by weight or more. The moisture content of the polarizing film is preferably 22% by weight or more, and the moisture content of the polarizing film is more than 25% by weight. From the viewpoint of preventing wrinkles during transportation, the moisture content of the polarizing film is preferable It is in a state of 70% by weight or less, and a state in which the moisture content of the polarizing film is 60% by weight or less is preferable.

前述塗佈液體之步驟中的塗佈(塗敷)方法可應用以往之塗佈(塗敷)方法,可舉例如輥塗法、旋塗法、線棒塗佈法、浸塗法、模塗法、簾塗法、噴塗法、刮刀塗佈法(缺角輪塗佈法等)等塗覆方法等。另,偏光膜之塗佈面可為單面亦可為兩面。The coating (coating) method in the step of applying the liquid can be the conventional coating (coating) method, for example, roll coating, spin coating, wire bar coating, dip coating, die coating Coating methods such as method, curtain coating method, spraying method, knife coating method (notched wheel coating method, etc.), etc. In addition, the coating surface of the polarizing film can be single-sided or double-sided.

由使成分易浸潤至前述含有水之偏光膜中之觀點來看,前述液體中之成分亦可為水溶性化合物。另外,上述水溶性化合物係指對在25℃下的水100g之溶解性為1g以上者。From the viewpoint of allowing the ingredients to easily infiltrate the polarizing film containing water, the ingredients in the liquid may also be water-soluble compounds. In addition, the above-mentioned water-soluble compound means one having a solubility of 1 g or more in 100 g of water at 25°C.

前述液體中之成分可舉例如鋅鹽(氯化鋅、碘化鋅等鹵化鋅;硫酸鋅、乙酸鋅等無機鋅鹽等);有機鈦化合物(鈦烷氧化物、鈦螯合物、鈦螯合物銨鹽、鈦螯合物醯化物等)、有機鋯(氧鋯烷氧化物、氧鋯螯合物、氧鋯螯合物銨鹽、氧鋯醯化物)、鹼金屬鹽、鹼土族金屬鹽、金屬鹵化物等。The ingredients in the aforementioned liquid include, for example, zinc salts (zinc halides such as zinc chloride and zinc iodide; inorganic zinc salts such as zinc sulfate and zinc acetate, etc.); organic titanium compounds (titanium alkoxide, titanium chelate, titanium chelate, etc.) Ammonium salt, titanium chelate, etc.), organic zirconium (zirconyl oxide, zirconyl chelate, zirconyl chelate ammonium salt, zirconyl oxide), alkali metal salt, alkaline earth metal Salt, metal halides, etc.

又,前述液體中之成分可舉具有自由基捕捉功能之化合物(亦稱自由基捕捉劑)。前述具有自由基捕捉功能之化合物可捕捉偏光膜之聚乙烯醇因加熱而產生的自由基,抑制多烯化,因此可提升偏光膜對熱之耐久性。由可易抑制多烯化之觀點來看,前述具有自由基捕捉功能之化合物例如宜為具有氮氧自由基或氮氧基之化合物。In addition, the component in the aforementioned liquid may be a compound having a radical trapping function (also referred to as a radical trapping agent). The aforementioned compound with the function of capturing radicals can capture the free radicals generated by heating of the polyvinyl alcohol of the polarizing film, and inhibit polyalkenization, thereby improving the durability of the polarizing film to heat. From the viewpoint of easily inhibiting polyolefination, the aforementioned compound having a radical trapping function is preferably, for example, a compound having nitroxide radicals or nitroxyl radicals.

前述具有氮氧自由基或氮氧基之化合物可舉例如具有以下結構之有機基的化合物等。 [化學式1]

Figure 02_image001
…(1) (通式(1)中,R1 表示氧自由基,R2 至R5 獨立表示氫原子或碳原子數1~10烷基,n表示0或1)。此外,通式(1)中虛線部之左邊表示任意的有機基。The aforementioned compound having a nitroxide radical or a nitroxyl group includes, for example, a compound having an organic group of the following structure. [Chemical formula 1]
Figure 02_image001
...(1) (In the general formula (1), R 1 represents an oxygen radical, R 2 to R 5 independently represent a hydrogen atom or an alkyl group with 1 to 10 carbon atoms, and n represents 0 or 1). In addition, the left side of the dotted line in the general formula (1) represents an arbitrary organic group.

具有上述有機基之化合物可舉例如以下通式(2)~(5)所示化合物等。 [化學式2]

Figure 02_image003
…(2) (通式(2)中,R1 ~R5 及n與上述相同,R6 表示氫原子或碳原子數1~10烷基、醯基或芳基)。 [化學式3]
Figure 02_image005
…(3) (通式(3)中,R1 至R5 及n與上述相同,R7 及R8 獨立表示氫原子或碳原子數1~10烷基、醯基或芳基)。 [化學式4]
Figure 02_image007
…(4) (通式(4)中,R1 至R5 及n與上述相同,R9 至R11 獨立表示氫原子或碳原子數1~10烷基、醯基、胺基、烷氧基、羥基或芳基)。 [化學式5]
Figure 02_image009
…(5) (通式(5)中,R1 至R5 及n與上述相同,R12 表示氫原子或碳原子數1~10烷基、胺基、烷氧基、羥基或芳基)。Examples of the compound having the above-mentioned organic group include compounds represented by the following general formulas (2) to (5). [Chemical formula 2]
Figure 02_image003
...(2) (In the general formula (2), R 1 to R 5 and n are the same as above, and R 6 represents a hydrogen atom or an alkyl group, acyl group, or aryl group having 1 to 10 carbon atoms). [Chemical formula 3]
Figure 02_image005
...(3) (In the general formula (3), R 1 to R 5 and n are the same as described above, and R 7 and R 8 independently represent a hydrogen atom or an alkyl group, acyl group, or aryl group having 1 to 10 carbon atoms). [Chemical formula 4]
Figure 02_image007
...(4) (In the general formula (4), R 1 to R 5 and n are the same as described above, and R 9 to R 11 independently represent a hydrogen atom or an alkyl group, an acyl group, an amino group, and an alkoxy group with 1 to 10 carbon atoms , Hydroxy or aryl). [Chemical formula 5]
Figure 02_image009
...(5) (In the general formula (5), R 1 to R 5 and n are the same as above, and R 12 represents a hydrogen atom or an alkyl group with 1 to 10 carbon atoms, an amino group, an alkoxy group, a hydroxyl group or an aryl group) .

前述通式(1)~(5)中,R2 至R5 由取得容易度之觀點來看,宜為碳原子數1~6烷基,碳原子數1~3烷基較佳。又,前述通式(2)中,由取得容易度之觀點來看,R6 宜為氫原子或碳原子數1~10烷基,氫原子較佳。又,前述通式(3)中,由取得容易度之觀點來看,R7 及R8 宜獨立為氫原子或碳原子數1~10烷基,氫原子較佳。又,前述通式(4)中,由取得容易度之觀點來看,R9 至R11 宜為氫原子或碳原子數1~10烷基。又,前述通式(5)中,由取得容易度之觀點來看,R12 宜為羥基、胺基或烷氧基。前述通式(1)~(5)中,n由取得容易度之觀點來看宜為1。In the aforementioned general formulas (1) to (5), R 2 to R 5 are preferably an alkyl group having 1 to 6 carbon atoms, and more preferably an alkyl group having 1 to 3 carbon atoms, from the viewpoint of ease of acquisition. Furthermore, in the aforementioned general formula (2), from the viewpoint of ease of acquisition, R 6 is preferably a hydrogen atom or an alkyl group with 1 to 10 carbon atoms, and a hydrogen atom is more preferred. Moreover, in the aforementioned general formula (3), from the viewpoint of ease of acquisition, R 7 and R 8 are preferably independently a hydrogen atom or an alkyl group with 1 to 10 carbon atoms, and a hydrogen atom is preferred. In addition, in the aforementioned general formula (4), R 9 to R 11 are preferably a hydrogen atom or an alkyl group having 1 to 10 carbon atoms from the viewpoint of ease of acquisition. In addition, in the aforementioned general formula (5), R 12 is preferably a hydroxyl group, an amino group or an alkoxy group from the viewpoint of ease of acquisition. In the aforementioned general formulas (1) to (5), n is preferably 1 from the viewpoint of ease of acquisition.

又,前述具有氮氧自由基或氮氧基之化合物可舉例如以下化合物等。 [化學式6]

Figure 02_image011
…(6) (通式(6)中,R表示氫原子或碳原子數1~10烷基、醯基或芳基)。 [化學式7]
Figure 02_image013
…(7) [化學式8]
Figure 02_image015
…(8)In addition, examples of the compound having a nitroxide radical or a nitroxyl group include the following compounds. [Chemical formula 6]
Figure 02_image011
...(6) (In the general formula (6), R represents a hydrogen atom or an alkyl group, acyl group, or aryl group having 1 to 10 carbon atoms). [Chemical formula 7]
Figure 02_image013
…(7) [Chemical formula 8]
Figure 02_image015
…(8)

又,前述液體中之成分可舉具有交聯功能之化合物(亦稱交聯劑)。前述具有交聯功能之化合物會與偏光膜之聚乙烯醇的羥基反應形成交聯結構,而可提升偏光膜對加濕的耐久性。前述具有交聯功能之化合物由提升加濕耐久性之觀點來看,可舉例如具有異氰酸酯基、異氰酸酯衍生官能基、環氧基、羰基、

Figure 109132391-A0101-12-01
Figure 109132391-A0101-12-02
環、乙烯基醚基、乙烯碸基、㗁唑啉基之有機化合物之外,還可舉有機鈦化合物(鈦烷氧化物、鈦螯合物、鈦螯合物銨鹽、鈦螯合物醯化物等)等。In addition, the component in the aforementioned liquid may include a compound having a cross-linking function (also referred to as a cross-linking agent). The aforementioned compound with cross-linking function reacts with the hydroxyl group of the polyvinyl alcohol of the polarizing film to form a cross-linked structure, which can improve the durability of the polarizing film to humidification. From the viewpoint of improving the durability of humidification, the aforementioned compounds with crosslinking function include, for example, isocyanate groups, isocyanate-derived functional groups, epoxy groups, carbonyl groups,
Figure 109132391-A0101-12-01
Figure 109132391-A0101-12-02
In addition to organic compounds such as rings, vinyl ether groups, vinyl ether groups, and azolinyl groups, organic titanium compounds (titanium alkoxide, titanium chelate, titanium chelate ammonium salt, titanium chelate ammonium salt, Chemicals, etc.) and so on.

又,前述液體中之成分可舉具有賦予塑性功能之化合物(亦稱塑化劑)。前述具有賦予塑性功能之化合物可藉由對偏光膜賦予塑性,來減輕因壓入之力產生之凹痕等品質上之不良情況。前述具有賦予塑性功能之化合物可舉例如乙二醇、聚乙二醇、其他乙二醇衍生物、丙三醇等。In addition, the component in the aforementioned liquid may be a compound having a plasticity-imparting function (also referred to as a plasticizer). The aforementioned compound with plasticity imparting function can reduce quality defects such as dents caused by the pressing force by imparting plasticity to the polarizing film. Examples of the aforementioned compound having a plasticity-imparting function include ethylene glycol, polyethylene glycol, other ethylene glycol derivatives, and glycerol.

又,前述液體中之成分可舉染料系化合物(亦稱染料)。前述染料系化合物可賦予偏光膜之色相調整或圖案印刷等特性。前述染料系化合物可舉例如偶氮化合物、蒽醌系、喹啉黃系化合物等。In addition, the components in the aforementioned liquid include dye-based compounds (also referred to as dyes). The aforementioned dye-based compounds can impart characteristics such as hue adjustment or pattern printing to the polarizing film. Examples of the aforementioned dye-based compounds include azo compounds, anthraquinone-based compounds, and quinoline yellow-based compounds.

前述液體會受上述塗佈(塗敷)之形態影響故不能一概決定,惟由有效率地使液體中之成分滲透的觀點來看,液體中之成分濃度宜為0.1重量%以上,1.0重量%以上較佳,並且,由防止液體中之成分析出造成不良情況的觀點來看,宜為30重量%以下,20重量%以下較佳。The aforementioned liquid will be affected by the form of the coating (coating), so it cannot be determined entirely. However, from the viewpoint of efficiently permeating the components in the liquid, the concentration of the components in the liquid is preferably 0.1% by weight or more, 1.0% by weight The above is preferable, and from the viewpoint of preventing problems caused by the analysis of components in the liquid, it is preferably 30% by weight or less, and more preferably 20% by weight or less.

前述溶劑可舉水;甲醇、乙醇、乙二醇、聚乙二醇、其他乙二醇衍生物、丙三醇、二甲亞碸等水溶性溶劑等。Examples of the aforementioned solvent include water; methanol, ethanol, ethylene glycol, polyethylene glycol, other ethylene glycol derivatives, water-soluble solvents such as glycerol, dimethylsulfoxide, and the like.

前述含有水之偏光膜之前述液體之接觸角為55°以下。前述含有水之偏光膜由易使液體中所含成分浸潤之觀點來看,前述液體之接觸角宜為50°以下,48°以下較佳。The contact angle of the liquid of the polarizing film containing water is 55° or less. From the viewpoint of the water-containing polarizing film being easy to infiltrate the components contained in the liquid, the contact angle of the liquid is preferably 50° or less, preferably 48° or less.

自前述步驟(I-1)後至前述步驟(I-2)開始為止之時間(實際機械製造時之偏光膜的輸送期間),由維持含有水之偏光膜中所含水分之觀點、或由生產性之觀點來看,在溫度為15℃~35℃左右、較宜在溫度為20℃~30℃左右下為300秒以下為佳,180秒以下較佳,60秒以下更佳,10秒以下又更佳。The time from the aforementioned step (I-1) to the beginning of the aforementioned step (I-2) (the transport period of the polarizing film in actual mechanical manufacturing) is determined from the viewpoint of maintaining the water content in the polarizing film containing water, or From the viewpoint of productivity, at a temperature of about 15°C to 35°C, preferably at a temperature of about 20°C to 30°C, it is preferably 300 seconds or less, 180 seconds or less is better, 60 seconds or less is more preferably, 10 seconds The following is better.

又,前述步驟(I-2)中,亦可因應需要在施行將液體塗佈於前述含有水之偏光膜的步驟後,使一部分之液體浸潤並施行去除剩餘的液體之步驟。液體之去除方法可列舉使用廢布或海綿輥等進行擦拭去除方法、抽吸去除方法、利用送風進行的去除方法、利用棒或凹版輥進行刮除去除之方法等。In addition, in the aforementioned step (I-2), after the step of applying the liquid to the polarizing film containing water, a part of the liquid can be infiltrated and the step of removing the remaining liquid can be performed as needed. Liquid removal methods include wiping removal methods using waste cloth or sponge rollers, suction removal methods, air blowing removal methods, and scraping removal methods using rods or gravure rollers.

<製造乾燥後之偏光膜的步驟(I-3)> 本發明偏光膜之製造方法包含步驟(I-3),其係對上述所得浸潤有液體中之成分的偏光膜施行乾燥步驟,而製造乾燥後之偏光膜。<Procedure of manufacturing dried polarizing film (I-3)> The manufacturing method of the polarizing film of the present invention includes the step (I-3), which is to perform a drying step on the polarizing film impregnated with the components in the liquid to manufacture the dried polarizing film.

前述乾燥步驟係將上述所得浸潤有液體中之成分的偏光膜乾燥而獲得偏光膜之步驟,藉由乾燥可獲得具有所期望之水分率的偏光膜。前述乾燥可利用任意適當之方法進行,可舉例如自然乾燥、送風乾燥、加熱乾燥。The aforementioned drying step is a step of drying the obtained polarizing film impregnated with the components in the liquid to obtain a polarizing film, and by drying, a polarizing film having a desired moisture content can be obtained. The aforementioned drying can be performed by any appropriate method, and examples thereof include natural drying, air blowing drying, and heat drying.

前述乾燥溫度宜為20~150℃左右,25~100℃左右較佳。又,因偏光膜之乾燥程度會受乾燥溫度之影響,故前述乾燥時間不能一概決定,而宜為10~600秒鐘左右,30~300秒鐘左右較佳。前述乾燥步驟可僅實施1次,亦可因應需要實施複數次。The aforementioned drying temperature is preferably about 20 to 150°C, preferably about 25 to 100°C. In addition, since the degree of drying of the polarizing film will be affected by the drying temperature, the aforementioned drying time cannot be determined at all. It is preferably about 10 to 600 seconds, preferably about 30 to 300 seconds. The aforementioned drying step can be performed only once, or multiple times as needed.

由防止伴隨塑化性消失產生之凹痕等品質不良之觀點來看,前述乾燥後之偏光膜的水分率宜為10重量%以上,12重量%以上較佳,而由使偏光度等光學特性提升之觀點來看,水分率宜為20重量%以下,16重量%以下較佳。另外,當前述乾燥後之偏光膜為後述厚度為8μm左右以下之乾燥後的偏光膜時,由防止伴隨塑化性消失產生之凹痕等品質不良之觀點來看,水分率宜為2重量%以上,3重量%以上較佳,而由使偏光度等光學特性提升之觀點來看,水分率宜為20重量%以下,10重量%以下較佳。From the viewpoint of preventing poor quality such as dents caused by the loss of plasticization, the moisture content of the polarizing film after drying is preferably 10% by weight or more, preferably 12% by weight or more. From the viewpoint of improvement, the moisture content is preferably 20% by weight or less, and more preferably 16% by weight or less. In addition, when the above-mentioned dried polarizing film is a dried polarizing film with a thickness of about 8 μm or less described later, from the viewpoint of preventing poor quality such as dents caused by the loss of plasticity, the moisture content is preferably 2% by weight Above, 3% by weight or more is preferable, and from the viewpoint of improving optical properties such as the degree of polarization, the moisture content is preferably 20% by weight or less, and more preferably 10% by weight or less.

前述乾燥後之偏光膜厚度宜為1~30μm左右,5~25μm左右較佳,5~20μm更佳。尤其是為了獲得厚度為8μm左右以下之乾燥後之偏光膜,可應用以下薄型偏光膜之製造方法,該薄型偏光膜係使用包含在熱塑性樹脂基材上製膜而成之聚乙烯醇系樹脂層的積層體作為前述聚乙烯醇系薄膜。The thickness of the polarizing film after drying is preferably about 1 to 30 μm, preferably about 5 to 25 μm, and more preferably 5 to 20 μm. In particular, in order to obtain a dried polarizing film with a thickness of about 8μm or less, the following thin polarizing film manufacturing method can be applied. The thin polarizing film uses a polyvinyl alcohol resin layer formed on a thermoplastic resin substrate. The laminate serves as the aforementioned polyvinyl alcohol-based film.

<偏光膜(薄型偏光膜)之製造方法> 偏光膜(薄型偏光膜)之製造方法包含以下步驟:步驟(II-0),係於長條狀熱塑性樹脂基材之單側形成含聚乙烯醇系樹脂之聚乙烯醇系樹脂層來準備積層體;步驟(II-1),係一邊將所得積層體沿長邊方向輸送,一邊對前述積層體施行至少空中輔助延伸處理步驟、染色處理步驟及水中延伸處理步驟,而製造具有含有水之偏光膜的積層體;步驟(II-2),係對所得具有含有水之偏光膜的積層體施行塗佈液體之步驟,而製造具有浸潤有液體中之成分的偏光膜之積層體;及步驟(II-3),對所得具有浸潤有液體中之成分的偏光膜之積層體施行乾燥處理步驟,而製造乾燥後之偏光膜;並且,前述具有含有水之偏光膜的積層體中之偏光膜之前述液體之接觸角為55°以下。<Production method of polarizing film (thin polarizing film)> The manufacturing method of polarizing film (thin polarizing film) includes the following steps: step (II-0), forming a polyvinyl alcohol-based resin layer containing polyvinyl alcohol-based resin on one side of a long-shaped thermoplastic resin substrate to prepare a laminate Body; Step (II-1), while transporting the resulting layered body along the longitudinal direction, while performing at least an aerial auxiliary extension treatment step, a dyeing treatment step, and an underwater extension treatment step on the aforementioned layered body, to produce a polarized light containing water Film laminate; step (II-2) is a step of applying a liquid to the obtained laminate having a polarizing film containing water to produce a laminate having a polarizing film impregnated with components in the liquid; and step ( II-3) Drying is performed on the obtained laminate having a polarizing film impregnated with liquid components to produce a dried polarizing film; and, the above-mentioned polarizing film in the laminate having a polarizing film containing water The contact angle of the aforementioned liquid is 55° or less.

<準備積層體之步驟(II-0)> 本發明偏光膜(薄型偏光膜)之製造方法包含步驟(II-0),其係於長條狀熱塑性樹脂基材之單側形成含聚乙烯醇系樹脂(PVA系樹脂)之聚乙烯醇系樹脂層(PVA系樹脂層)來準備積層體。<Steps to prepare laminate (II-0)> The manufacturing method of the polarizing film (thin polarizing film) of the present invention includes the step (II-0), which is to form a polyvinyl alcohol-based resin (PVA-based resin) containing a polyvinyl alcohol-based resin (PVA-based resin) on one side of a long-shaped thermoplastic resin substrate The resin layer (PVA-based resin layer) is used to prepare a laminate.

製作前述積層體之方法可採用任意適當之方法,可舉例如於前述熱塑性樹脂基材表面塗佈含前述PVA系樹脂之塗佈液並乾燥之方法。前述熱塑性樹脂基材之厚度宜為20~300μm左右,50~200μm左右較佳。前述PVA系樹脂層之厚度宜為3~40μm左右,3~20μm左右較佳。Any appropriate method can be used for the method of producing the laminate. For example, a method of applying a coating liquid containing the PVA-based resin to the surface of the thermoplastic resin substrate and drying it can be mentioned. The thickness of the aforementioned thermoplastic resin substrate is preferably about 20 to 300 μm, preferably about 50 to 200 μm. The thickness of the aforementioned PVA-based resin layer is preferably about 3-40 μm, preferably about 3-20 μm.

前述熱塑性樹脂基材由可吸收水而大幅降低延伸應力從而高倍率延伸之觀點來看,吸水率宜為0.2%左右以上,0.3%左右以上較佳。另一方面,由可防止熱塑性樹脂基材的尺寸穩定性顯著降低而造成所得偏光膜的外觀變差等不良情況之觀點來看,前述熱塑性樹脂基材之吸水率宜為3%左右以下,1%左右以下較佳。另外,前述吸水率例如可藉由將改質基導入前述熱塑性樹脂基材之構成材料中來調整。前述吸水率係依循JIS K 7209求得之值。From the standpoint of the aforementioned thermoplastic resin substrate that can absorb water and greatly reduce the elongation stress so as to extend at a high magnification, the water absorption is preferably about 0.2% or more, preferably about 0.3% or more. On the other hand, from the viewpoint of preventing the dimensional stability of the thermoplastic resin substrate from being significantly reduced and causing the deterioration of the appearance of the polarizing film obtained, the water absorption rate of the thermoplastic resin substrate is preferably about 3% or less. About% or less is better. In addition, the water absorption rate can be adjusted, for example, by introducing a modifying group into the constituent material of the thermoplastic resin substrate. The aforementioned water absorption is a value obtained in accordance with JIS K 7209.

由可抑制PVA系樹脂層之結晶化,同時充分確保積層體之延伸性之觀點來看,前述熱塑性樹脂基材之玻璃轉移溫度(Tg)宜為120℃左右以下。並且,考慮到利用水使熱塑性樹脂基材塑化與可良好進行水中延伸,前述玻璃轉移溫度(Tg)宜為100℃左右以下,90℃左右以下較佳。另一方面,由可防止熱塑性樹脂基材在塗佈、乾燥塗佈液時變形等不良情況而製作出良好的積層體之觀點來看,熱塑性樹脂基材的玻璃轉移溫度宜為60℃左右以上。另外,前述玻璃轉移溫度例如可藉由使用可將改質基導入前述熱塑性樹脂基材之構成材料的結晶化材料進行加熱來調整。前述玻璃轉移溫度(Tg)係依循JIS K 7121求得之值。From the viewpoint of suppressing the crystallization of the PVA-based resin layer and ensuring the extensibility of the laminate, the glass transition temperature (Tg) of the aforementioned thermoplastic resin substrate is preferably about 120°C or less. In addition, considering the use of water to plasticize the thermoplastic resin substrate and the ability to stretch well in water, the glass transition temperature (Tg) is preferably about 100°C or less, and preferably about 90°C or less. On the other hand, from the viewpoint of preventing defects such as deformation of the thermoplastic resin substrate during coating and drying of the coating solution and producing a good laminate, the glass transition temperature of the thermoplastic resin substrate is preferably about 60°C or higher . In addition, the glass transition temperature can be adjusted by heating, for example, by using a crystallization material that can introduce a modifying group into the constituent material of the thermoplastic resin substrate. The aforementioned glass transition temperature (Tg) is a value obtained in accordance with JIS K 7121.

前述熱塑性樹脂基材之構成材料可採用任意適當的熱塑性樹脂。前述熱塑性樹脂可舉例如聚對苯二甲酸乙二酯系樹脂等酯系樹脂、降莰烯系樹脂等環烯烴系樹脂、聚丙烯等烯烴系樹脂、聚醯胺系樹脂、聚碳酸酯系樹脂及其等之共聚物樹脂等。該等之中又以降莰烯系樹脂、非晶質(非晶性)聚對苯二甲酸乙二酯系樹脂較佳,並且,由熱塑性樹脂基材不僅延伸性極優異,亦可抑制延伸時之結晶化的觀點來看,較宜使用非晶質(非晶性)聚對苯二甲酸乙二酯系樹脂。非晶質(非晶性)聚對苯二甲酸乙二酯系樹脂可舉包含間苯二甲酸及/或環己烷二羧酸作為二羧酸的共聚物、或是包含環己烷二甲醇或二乙二醇作為甘醇的共聚物。Any appropriate thermoplastic resin can be used as the constituent material of the aforementioned thermoplastic resin substrate. The aforementioned thermoplastic resins include, for example, ester resins such as polyethylene terephthalate resins, cycloolefin resins such as norbornene resins, olefin resins such as polypropylene, polyamide resins, and polycarbonate resins. And other copolymer resins. Among these, norbornene-based resins and amorphous (amorphous) polyethylene terephthalate-based resins are preferred. In addition, the thermoplastic resin substrate not only has excellent extensibility, but also suppresses elongation. From the viewpoint of crystallization, it is preferable to use an amorphous (amorphous) polyethylene terephthalate resin. Amorphous (amorphous) polyethylene terephthalate resins may include copolymers containing isophthalic acid and/or cyclohexanedicarboxylic acid as dicarboxylic acids, or containing cyclohexanedimethanol Or diethylene glycol as a copolymer of glycol.

在形成PVA系樹脂層之前,可對前述熱塑性樹脂基材施行表面處理(例如電暈處理等),也可於熱塑性樹脂基材上形成易接著層。藉由進行所述處理,可提升熱塑性樹脂基材與PVA系樹脂層之密著性。且,前述熱塑性樹脂基材亦可在形成PVA系樹脂層前已經過延伸。Before forming the PVA-based resin layer, the thermoplastic resin substrate may be subjected to surface treatment (for example, corona treatment, etc.), or an easily bonding layer may be formed on the thermoplastic resin substrate. By performing the treatment, the adhesion between the thermoplastic resin substrate and the PVA-based resin layer can be improved. In addition, the aforementioned thermoplastic resin substrate may have been stretched before forming the PVA-based resin layer.

前述塗佈液係使PVA系樹脂溶解於溶劑中之溶液。作為前述溶劑,可舉例如水、二甲亞碸、二甲基甲醯胺、二甲基乙醯胺、N-甲基吡咯啶酮、各種甘醇類、三羥甲丙烷等多元醇類、伸乙二胺、二伸乙三胺等胺類,而宜為水。該等可單獨使用或可將二種以上組合來使用。由可形成密著於熱塑性樹脂基材之均勻的塗佈膜之觀點來看,前述塗佈液之PVA系樹脂濃度相對於溶劑100重量份宜為3~20重量份左右。The aforementioned coating liquid is a solution in which PVA-based resin is dissolved in a solvent. Examples of the aforementioned solvent include water, dimethyl sulfide, dimethylformamide, dimethylacetamide, N-methylpyrrolidone, various glycols, trimethylolpropane and other polyols, extensions Amines such as ethylenediamine and diethylenetriamine are preferably water. These can be used alone or in combination of two or more kinds. From the viewpoint of forming a uniform coating film adhered to the thermoplastic resin substrate, the concentration of the PVA-based resin in the coating solution is preferably about 3 to 20 parts by weight relative to 100 parts by weight of the solvent.

由可透過延伸提升聚乙烯醇分子之定向性的觀點來看,前述塗佈液中宜摻混有鹵化物。前述鹵化物可採用任意適當之鹵化物,可舉例如碘化物及氯化鈉等。前述碘化物可舉例如碘化鉀、碘化鈉及碘化鋰等,而宜為碘化鉀。前述塗佈液中前述鹵化物之濃度相對於PVA系樹脂100重量份宜為5~20重量份左右,10~15重量份左右較佳。From the viewpoint that the orientation of polyvinyl alcohol molecules can be improved by extension, it is preferable to blend a halide in the aforementioned coating liquid. Any appropriate halide can be used as the aforementioned halide, and examples thereof include iodide and sodium chloride. Examples of the aforementioned iodide include potassium iodide, sodium iodide, and lithium iodide, and potassium iodide is preferred. The concentration of the halide in the coating solution is preferably about 5-20 parts by weight, preferably about 10-15 parts by weight, relative to 100 parts by weight of the PVA-based resin.

又,前述塗佈液中亦可摻混添加劑。前述添加劑可舉例如乙二醇或丙三醇等塑化劑;非離子界面活性劑等界面活性劑等。In addition, additives may be blended in the aforementioned coating liquid. Examples of the aforementioned additives include plasticizers such as ethylene glycol or glycerol; and surfactants such as nonionic surfactants.

前述塗佈液之塗佈方法可採用任意適當之方法,可舉例如輥塗法、旋塗法、線棒塗佈法、浸塗法、模塗法、簾塗法、噴塗法、刮刀塗佈法(缺角輪塗佈法等)等。又,前述塗佈液之乾燥溫度宜為50℃左右以上。The coating method of the aforementioned coating liquid can be any suitable method, for example, roll coating, spin coating, wire bar coating, dip coating, die coating, curtain coating, spray coating, knife coating Method (missing corner wheel coating method, etc.) and so on. In addition, the drying temperature of the aforementioned coating liquid is preferably about 50°C or higher.

<製造具有含有水之偏光膜的積層體之步驟(II-1)> 本發明偏光膜(薄型偏光膜)之製造方法包含步驟(II-1),其係一邊將上述所得積層體沿長邊方向輸送,一邊對前述積層體施行至少空中輔助延伸處理步驟、染色處理步驟及水中延伸處理步驟,而製造具有含有水之偏光膜的積層體。<Steps of manufacturing a laminate with a polarizing film containing water (II-1)> The manufacturing method of the polarizing film (thin polarizing film) of the present invention includes the step (II-1), which is to carry out at least the aerial auxiliary stretching treatment step and the dyeing treatment step on the above-mentioned laminated body while conveying the above-mentioned laminated body in the longitudinal direction. And an underwater stretching process to produce a laminate with a polarizing film containing water.

前述空中輔助延伸處理步驟可一邊抑制熱塑性樹脂基材結晶化一邊進行延伸,因此可將積層體高倍率延伸。前述空中輔助延伸處理步驟之延伸方法可為固定端延伸(例如使用拉幅延伸機進行延伸之方法),亦可為自由端延伸(例如使積層體通過周速相異之輥間進行單軸延伸之方法),而由獲得高光學特性之觀點來看,宜為自由端延伸。The aforementioned air-assisted stretching treatment step can stretch while suppressing the crystallization of the thermoplastic resin base material, so that the laminate can be stretched at a high magnification. The stretching method of the aforementioned aerial auxiliary stretching process can be fixed-end stretching (for example, a method of stretching using a tenter stretching machine), or free-end stretching (for example, uniaxial stretching of the laminated body through rollers with different peripheral speeds) The method), and from the viewpoint of obtaining high optical characteristics, it is better to extend the free end.

前述空中輔助延伸處理步驟之延伸倍率宜為2~3.5倍左右。前述空中輔助延伸處理可在一階段中進行亦可分多階段進行。分多階段進行時,延伸倍率為各階段之延伸倍率之積。The stretch magnification of the aforementioned aerial auxiliary stretch processing step is preferably about 2 to 3.5 times. The aforementioned air-assisted extension processing can be performed in one stage or in multiple stages. When it is carried out in multiple stages, the stretching ratio is the product of the stretching ratios of each stage.

前述空中輔助延伸處理步驟之延伸溫度可因應熱塑性樹脂基材之形成材料、延伸方式等設定成任意適當之值,例如宜為熱塑性樹脂基材之玻璃轉移溫度(Tg)以上,前述玻璃轉移溫度(Tg)+10℃以上較佳,前述玻璃轉移溫度(Tg)+15℃以上更佳。另一方面,由抑制PVA系樹脂之結晶化急速進展,從而可抑制結晶化所造成的不良情況(例如,因延伸而妨礙PVA系樹脂層之定向)之觀點來看,延伸溫度之上限宜為170℃左右。The stretching temperature of the aforementioned aerial auxiliary stretching treatment step can be set to any appropriate value according to the forming material and stretching method of the thermoplastic resin substrate. For example, it is preferably higher than the glass transition temperature (Tg) of the thermoplastic resin substrate. The aforementioned glass transition temperature ( Tg)+10°C or higher is preferable, and the aforementioned glass transition temperature (Tg)+15°C or higher is more preferable. On the other hand, from the viewpoint of suppressing the rapid progress of the crystallization of the PVA-based resin, thereby suppressing defects caused by crystallization (for example, the orientation of the PVA-based resin layer is hindered by extension), the upper limit of the extension temperature is preferably Around 170°C.

亦可因應需要於前述空中輔助延伸處理步驟後且於染色處理步驟或水中延伸處理步驟前施行不溶解處理步驟。前述不溶解處理步驟代表上係將PVA系樹脂層浸漬於硼酸水溶液中來進行。藉由施行不溶解處理步驟,可賦予PVA系樹脂層耐水性,防止浸漬於水中時PVA之定向降低。該硼酸水溶液之濃度相對於水100重量份宜為1~5重量份左右。不溶解處理浴之液溫宜為20~50℃左右。It is also possible to perform an insolubilization treatment step after the aforementioned aerial auxiliary extension treatment step and before the dyeing treatment step or the underwater extension treatment step according to needs. The aforementioned insolubilization treatment step represents the above system by immersing the PVA-based resin layer in a boric acid aqueous solution. By performing the insolubilization treatment step, the PVA-based resin layer can be given water resistance, and the orientation of the PVA can be prevented from being reduced when immersed in water. The concentration of the boric acid aqueous solution is preferably about 1 to 5 parts by weight relative to 100 parts by weight of water. The liquid temperature of the insoluble treatment bath should be about 20~50℃.

前述染色處理步驟係以碘將PVA系樹脂層染色來進行。該吸附方法可舉例如:使PVA系樹脂層(積層體)浸漬於含碘之染色液中的方法、將該染色液塗敷於PVA系樹脂層上的方法、及將該染色液噴霧至PVA系樹脂層上的方法等,而宜為使PVA系樹脂層(積層體)浸漬於含碘之染色液中的方法。The aforementioned dyeing treatment step is performed by dyeing the PVA-based resin layer with iodine. The adsorption method includes, for example, a method of immersing the PVA-based resin layer (layered body) in a dyeing solution containing iodine, a method of coating the dyeing solution on the PVA-based resin layer, and spraying the dyeing solution onto the PVA The method on the resin layer, etc., is preferably a method of immersing the PVA resin layer (layered body) in a dyeing solution containing iodine.

前述染色浴中碘之摻混量相對於水100重量份宜為0.05~0.5重量份左右。為了提高碘對水的溶解度,宜於碘水溶液中摻混前述碘化物。相對於水100重量份,前述碘化物之摻混量宜為0.1~10重量份左右,0.3~5重量份左右較佳。為了抑制PVA系樹脂溶解,染色浴的液溫宜為20~50℃左右。又,由確保PVA系樹脂層之透射率之觀點來看,浸漬時間宜為5秒~5分鐘左右,30秒~90秒左右較佳。由獲得具有良好光學特性之偏光膜的觀點來看,碘水溶液中碘及碘化物之含量比宜為1:5~1:20左右,1:5~1:10左右較佳。The blending amount of iodine in the aforementioned dyeing bath is preferably about 0.05 to 0.5 parts by weight with respect to 100 parts by weight of water. In order to improve the solubility of iodine in water, it is advisable to mix the aforementioned iodide with the iodine aqueous solution. The blending amount of the aforementioned iodide is preferably about 0.1 to 10 parts by weight, preferably about 0.3 to 5 parts by weight, relative to 100 parts by weight of water. In order to prevent the PVA-based resin from dissolving, the liquid temperature of the dyeing bath is preferably about 20-50°C. In addition, from the viewpoint of ensuring the transmittance of the PVA-based resin layer, the immersion time is preferably about 5 seconds to 5 minutes, and more preferably about 30 seconds to 90 seconds. From the viewpoint of obtaining a polarizing film with good optical properties, the content ratio of iodine and iodide in the iodine aqueous solution is preferably about 1:5 to 1:20, preferably about 1:5 to 1:10.

亦可因應需要於前述染色處理步驟後且於水中延伸處理步驟前施行交聯處理步驟。前述交聯處理步驟代表上係藉由使PVA系樹脂層浸漬於硼酸水溶液中來進行。藉由施行交聯處理步驟,可賦予PVA系樹脂層耐水性,防止在之後的水中延伸中浸漬於高溫的水中時PVA之定向降低。該硼酸水溶液之硼酸濃度相對於水100重量份宜為1~5重量份左右。又,進行交聯處理步驟時,宜進一步於交聯浴中摻混前述碘化物。藉由摻混前述碘化物,可抑制已吸附於PVA系樹脂層之碘的溶出。前述碘化物之摻混量相對於水100重量份宜為1~5重量份左右。交聯浴(硼酸水溶液)之液溫宜為20~50℃左右。It is also possible to perform a cross-linking treatment step after the aforementioned dyeing treatment step and before the water extension treatment step as needed. The aforementioned cross-linking treatment step is representatively performed by immersing the PVA-based resin layer in a boric acid aqueous solution. By performing the cross-linking treatment step, the PVA-based resin layer can be given water resistance, and the orientation of the PVA can be prevented from being lowered when it is immersed in high-temperature water in the subsequent water extension. The boric acid concentration of the boric acid aqueous solution is preferably about 1 to 5 parts by weight relative to 100 parts by weight of water. In addition, when the cross-linking treatment step is performed, it is preferable to further blend the aforementioned iodide in the cross-linking bath. By blending the aforementioned iodide, it is possible to suppress the elution of iodine that has been adsorbed on the PVA-based resin layer. The blending amount of the aforementioned iodide is preferably about 1 to 5 parts by weight relative to 100 parts by weight of water. The temperature of the cross-linking bath (aqueous solution of boric acid) should be around 20~50°C.

前述水中延伸處理步驟係使積層體浸漬於延伸浴來進行。藉由水中延伸處理步驟,可在比上述熱塑性樹脂基材或PVA系樹脂層之玻璃轉移溫度(代表上為80℃左右)更低的溫度下延伸,而可一邊抑制PVA系樹脂層結晶化一邊進行高倍率延伸。前述水中延伸處理步驟之延伸方法可為固定端延伸(例如使用拉幅延伸機進行延伸之方法),亦可為自由端延伸(例如使積層體通過周速相異之輥間進行單軸延伸之方法),而由獲得高光學特性之觀點來看,宜為自由端延伸。The aforementioned underwater stretching treatment step is performed by immersing the laminate in a stretching bath. Through the underwater stretching process, it can be stretched at a temperature lower than the glass transition temperature of the thermoplastic resin substrate or the PVA resin layer (typically around 80°C), and the crystallization of the PVA resin layer can be suppressed. Perform high-magnification extension. The stretching method of the aforementioned underwater stretching treatment step can be fixed-end stretching (for example, the stretching method using a tenter stretching machine) or free-end stretching (for example, uniaxial stretching of the laminated body through rollers with different peripheral speeds) Method), and from the viewpoint of obtaining high optical characteristics, it is better to extend the free end.

前述水中延伸處理步驟宜使積層體浸漬於硼酸水溶液中來進行(硼酸水中延伸)。藉由使用硼酸水溶液作為延伸浴,可對PVA系樹脂層賦予得以承受延伸時所施加之張力的剛性與不溶於水的耐水性。硼酸水溶液之硼酸濃度相對於水100重量份,宜為1~10重量份,2.5~6重量份較佳。又,亦可於前述延伸浴(硼酸水溶液)中摻混碘化物。延伸浴之液溫宜為40~85℃左右,60℃~75℃左右較佳。積層體浸漬於延伸浴之浸漬時間宜為15秒~5分鐘左右。The aforementioned underwater stretching treatment step is preferably performed by immersing the layered body in a boric acid aqueous solution (boric acid aqueous stretching). By using a boric acid aqueous solution as a stretching bath, rigidity and water-insoluble water resistance can be imparted to the PVA-based resin layer to withstand the tension applied during stretching. The boric acid concentration of the boric acid aqueous solution is preferably 1-10 parts by weight, preferably 2.5-6 parts by weight relative to 100 parts by weight of water. In addition, iodide may be blended in the aforementioned stretching bath (aqueous boric acid solution). The temperature of the extension bath should be about 40~85℃, preferably about 60℃~75℃. The immersion time for the laminate to be immersed in the extension bath is preferably about 15 seconds to 5 minutes.

前述水中延伸處理步驟之延伸倍率宜為1.5倍左右以上,3倍左右以上較佳。The stretching magnification of the aforementioned underwater stretching treatment step is preferably about 1.5 times or more, preferably about 3 times or more.

此外,積層體之總延伸倍率相對於積層體的原長,宜為5倍左右以上,5.5倍左右以上較佳。In addition, the total stretching ratio of the laminated body is preferably about 5 times or more, and more preferably about 5.5 times or more relative to the original length of the laminated body.

宜於前述水中延伸處理步驟後施行洗淨處理步驟。前述洗淨處理步驟代表上係藉由使PVA系樹脂層浸漬於碘化鉀水溶液中來進行。It is advisable to perform a washing treatment step after the aforementioned water extension treatment step. The aforementioned washing treatment step is representatively performed by immersing the PVA-based resin layer in a potassium iodide aqueous solution.

並且,前述染色處理步驟、前述水中延伸處理步驟、前述不溶解處理步驟、前述交聯處理步驟及前述洗淨處理步驟之各處理浴中,亦可含有如鋅鹽、pH調整劑、pH緩衝劑、其他鹽類之添加劑。前述鋅鹽可舉例如氯化鋅、碘化鋅等鹵化鋅;硫酸鋅、乙酸鋅等無機鋅鹽等。前述pH調整劑可舉例如鹽酸、硫酸、硝酸等強酸或氫氧化鈉、氫氧化鉀等強鹼。前述pH緩衝劑可舉例如乙酸、草酸、檸檬酸等羧酸及其鹽、或如磷酸、碳酸之無機弱酸及其鹽。前述其他鹽類可舉例如氯化鈉、氯化鉀、氯化鋇等氯化物、如硝酸鈉、硝酸鉀之硝酸鹽、如硫酸鈉、硫酸鉀之硫酸鹽及鹼金屬、鹼土族金屬之鹽等。In addition, each treatment bath of the aforementioned dyeing treatment step, the aforementioned water extension treatment step, the aforementioned insolubilization treatment step, the aforementioned cross-linking treatment step, and the aforementioned washing treatment step may also contain, for example, zinc salts, pH adjusters, and pH buffers. , Other salt additives. Examples of the aforementioned zinc salt include zinc halides such as zinc chloride and zinc iodide; and inorganic zinc salts such as zinc sulfate and zinc acetate. Examples of the pH adjuster include strong acids such as hydrochloric acid, sulfuric acid, and nitric acid, or strong bases such as sodium hydroxide and potassium hydroxide. Examples of the aforementioned pH buffering agent include carboxylic acids and their salts such as acetic acid, oxalic acid, and citric acid, or weak inorganic acids such as phosphoric acid and carbonic acid and their salts. The aforementioned other salts include, for example, chlorides such as sodium chloride, potassium chloride, and barium chloride, nitrates such as sodium nitrate, potassium nitrate, sulfates such as sodium sulfate, potassium sulfate, and salts of alkali metals and alkaline earth metals. Wait.

<製造具有浸潤有液體中之成分的偏光膜之積層體的步驟(II-2)> 本發明偏光膜(薄型偏光膜)之製造方法包含步驟(II-2),其係對在上述所得具有含有水之偏光膜的積層體施行塗佈液體之步驟,而製造具有浸潤有液體中之成分的偏光膜之積層體。在該步驟(II-2)中,可整個應用上述製造浸潤有液體中之成分的偏光膜之步驟(I-2)。惟,前述液體塗佈(塗敷)於偏光膜之面上。<Step of manufacturing a laminate having a polarizing film impregnated with a component in a liquid (II-2)> The manufacturing method of the polarizing film (thin polarizing film) of the present invention includes the step (II-2), which is a step of applying a liquid to the laminated body having a polarizing film containing water obtained above to produce a liquid immersed A layered body of polarizing films of ingredients. In this step (II-2), the above-mentioned step (I-2) of manufacturing the polarizing film impregnated with the components in the liquid can be applied as a whole. However, the aforementioned liquid is coated (coated) on the surface of the polarizing film.

在前述步驟(II-2)中,由容易使液體中所含成分浸潤而更容易往偏光膜之厚度方向滲透之觀點來看,宜為偏光膜的水分率為20重量%以上之狀態,偏光膜之水分率為22重量%以上之狀態較佳,偏光膜之水分率為25重量%以上之狀態更佳,而由防止輸送時之皺褶之觀點來看,宜為偏光膜之水分率為70重量%以下之狀態,偏光膜之水分率為60重量%以下之狀態較佳。In the aforementioned step (II-2), from the viewpoint of making it easier to infiltrate the components contained in the liquid and more easily penetrate into the thickness direction of the polarizing film, it is preferable that the water content of the polarizing film is 20% by weight or more. The moisture content of the film is preferably 22% by weight or more, and the moisture content of the polarizing film is more than 25% by weight. From the viewpoint of preventing wrinkles during transportation, the moisture content of the polarizing film is preferred The state of 70% by weight or less, and the state of the moisture content of the polarizing film of 60% by weight or less is preferable.

前述具有含有水之偏光膜的積層體中之偏光膜之前述液體之接觸角為55°以下。前述具有含有水之偏光膜的積層體中之偏光膜由容易浸潤液體中所含成分之觀點來看,前述液體之接觸角宜為50°以下,48°以下較佳。The contact angle of the liquid of the polarizing film in the laminate having a polarizing film containing water is 55° or less. From the viewpoint that the polarizing film in the laminate having the polarizing film containing water easily wets the components contained in the liquid, the contact angle of the liquid is preferably 50° or less, preferably 48° or less.

自前述步驟(II-1)後至前述步驟(II-2)開始為止之時間(實際機械製造時之具有偏光膜之積層體的輸送期間),由維持含有水之偏光膜中所含水分之觀點、或由生產性之觀點來看,以在溫度為15℃~35℃左右、較宜在溫度為20℃~30℃左右下300秒以下為佳,且以180秒以下較佳,60秒以下更佳,10秒以下又更佳。The time from the aforementioned step (II-1) to the beginning of the aforementioned step (II-2) (the transport period of the laminated body with the polarizing film in actual mechanical manufacturing) is divided by the water contained in the polarizing film containing water From the viewpoint or from the viewpoint of productivity, the temperature is about 15°C to 35°C, preferably at a temperature of about 20°C to 30°C, for 300 seconds or less, and 180 seconds or less, 60 seconds The following is better, and 10 seconds or less is even better.

<製造乾燥後之偏光膜的步驟(II-3)> 本發明偏光膜(薄型偏光膜)之製造方法包含步驟(II-3),其係對上述所得具有浸潤有液體中之成分的偏光膜之積層體施行乾燥處理步驟,而製造乾燥後之偏光膜。<Procedure of manufacturing dried polarizing film (II-3)> The manufacturing method of the polarizing film (thin polarizing film) of the present invention includes the step (II-3), which is to perform a drying treatment step on the above-obtained laminate having a polarizing film impregnated with components in a liquid to produce a dried polarizing film .

前述乾燥處理步驟可以任意適當之方法進行,可舉例如自然乾燥、送風乾燥、加熱乾燥。又,前述乾燥處理步驟可透過將區域整體加熱所進行之區域加熱來進行,亦可透過將輸送輥加熱(所謂使用加熱輥)來進行。藉由使用加熱輥使其乾燥,可有效率地抑制積層體之加熱捲曲,而可製造外觀優異的偏光膜,且可一邊在使積層體維持平整之狀態下一邊進行乾燥,因此不僅可抑制捲曲,還可抑制其起皺。又,於乾燥處理步驟時,藉由使其於寬度方向收縮,可使所得偏光膜之光學特性提升,由此觀點來看,積層體因進行乾燥處理步驟所致之寬度方向之收縮率宜為1~10%左右,2~8%左右較佳。The aforementioned drying treatment step can be carried out by any appropriate method, and examples thereof include natural drying, air blowing drying, and heat drying. In addition, the aforementioned drying treatment step may be performed by heating the entire area by heating the area, or may be performed by heating the conveying roller (so-called using a heating roller). By using a heating roller to dry it, heating and curling of the laminated body can be effectively suppressed, and a polarizing film with excellent appearance can be produced, and the laminated body can be dried while maintaining a flat state, so not only curling can be suppressed , Can also suppress its wrinkles. In addition, by shrinking in the width direction during the drying treatment step, the optical properties of the obtained polarizing film can be improved. From this point of view, the shrinkage rate in the width direction of the laminate due to the drying treatment step is preferably About 1~10%, 2~8% is better.

藉由調整輸送輥之加熱溫度(加熱輥之溫度)、加熱輥之數量及與加熱輥的接觸時間等,可控制乾燥條件。加熱輥之溫度宜為60~120℃左右,65~100℃左右較佳,70~80℃更佳。由使熱塑性樹脂之結晶化度良好增加以可良好地抑制捲曲之觀點來看,輸送輥一般係設置2個~40個左右,且宜設置4個~30個左右。積層體與加熱輥之接觸時間(總接觸時間)宜為1~300秒左右,1~20秒較佳,1~10秒更佳。By adjusting the heating temperature of the conveying roller (temperature of the heating roller), the number of heating rollers and the contact time with the heating roller, etc., the drying conditions can be controlled. The temperature of the heating roller is preferably around 60~120℃, preferably around 65~100℃, more preferably 70~80℃. From the viewpoint of improving the degree of crystallinity of the thermoplastic resin and suppressing curling well, the conveyor rollers are generally set at about 2 to 40, and preferably set at about 4 to 30. The contact time (total contact time) between the laminate and the heating roller is preferably about 1 to 300 seconds, preferably 1 to 20 seconds, and more preferably 1 to 10 seconds.

加熱輥可設置於加熱爐內亦可設置於一般的製造產線(室溫環境下)。宜設置於具備送風機構的加熱爐內。藉由併用以加熱輥進行之乾燥與熱風乾燥,可抑制在加熱輥間急遽的溫度變化,而可易控制寬度方向之收縮。熱風乾燥之溫度宜為30~100℃左右。且,熱風乾燥時間宜為1~300秒左右。The heating roller can be installed in a heating furnace or in a general manufacturing line (under room temperature). It is suitable to be installed in a heating furnace equipped with an air supply mechanism. By combining drying with heating rollers and hot air drying, sudden temperature changes between the heating rollers can be suppressed, and the shrinkage in the width direction can be easily controlled. The temperature of hot air drying should be around 30~100℃. In addition, the hot air drying time is preferably about 1 to 300 seconds.

<偏光薄膜之製造方法> 本發明偏光薄膜之製造方法包含以下步驟:於以前述偏光膜之製造方法獲得之偏光膜之至少單面透過接著劑層貼合透明保護薄膜。<Method of manufacturing polarizing film> The manufacturing method of the polarizing film of the present invention includes the following steps: laminating a transparent protective film on at least one side of the polarizing film obtained by the foregoing method of manufacturing the polarizing film through the adhesive layer.

前述透明保護薄膜無特別限制,可使用可用於偏光薄膜之各種透明保護薄膜。構成前述透明保護薄膜之材料可使用例如透明性、機械強度、熱穩定性、水分阻斷性、各向同性等優異之熱塑性樹脂。前述熱塑性樹脂可舉例如:三醋酸纖維素等纖維素酯系樹脂、聚對苯二甲酸乙二酯或聚萘二甲酸乙二酯等聚酯系樹脂、聚醚碸系樹脂、聚碸系樹脂、聚碳酸酯系樹脂、尼龍或芳香族聚醯胺等聚醯胺系樹脂、聚醯亞胺系樹脂、如聚乙烯、聚丙烯、乙烯・丙烯共聚物之聚烯烴系樹脂、(甲基)丙烯酸系樹脂、環系或具有降莰烯結構之環狀聚烯烴系樹脂(降莰烯系樹脂)、聚芳酯系樹脂、聚苯乙烯系樹脂、聚乙烯醇系樹脂及該等的混合物。又,前述透明保護薄膜可使用由(甲基)丙烯酸系、胺甲酸酯系、丙烯酸胺甲酸酯系、環氧系、聚矽氧系等熱硬化性樹脂或紫外線硬化型樹脂形成之硬化層。該等中宜為纖維素酯系樹脂、聚碳酸酯系樹脂、(甲基)丙烯酸系樹脂、環狀聚烯烴系樹脂、聚酯系樹脂。The aforementioned transparent protective film is not particularly limited, and various transparent protective films that can be used for polarizing films can be used. As the material constituting the aforementioned transparent protective film, for example, thermoplastic resins excellent in transparency, mechanical strength, thermal stability, moisture barrier properties, and isotropy can be used. Examples of the thermoplastic resin include: cellulose ester resins such as cellulose triacetate, polyester resins such as polyethylene terephthalate or polyethylene naphthalate, polyether-based resins, and poly-based resins. , Polycarbonate resins, polyamide resins such as nylon or aromatic polyamides, polyimide resins, polyolefin resins such as polyethylene, polypropylene, ethylene and propylene copolymers, (methyl) Acrylic resin, cyclic or cyclic polyolefin resin having a norbornene structure (norbornene resin), polyarylate resin, polystyrene resin, polyvinyl alcohol resin, and mixtures thereof. In addition, the aforementioned transparent protective film can be cured using thermosetting resins such as (meth)acrylic, urethane, acrylic urethane, epoxy, polysilicone, or ultraviolet curable resins. Floor. Among these, cellulose ester resins, polycarbonate resins, (meth)acrylic resins, cyclic polyolefin resins, and polyester resins are preferable.

前述透明保護薄膜之厚度可適當決定,惟一般由強度或處置性等作業性、薄層性等觀點來看,宜為1~500μm左右,1~300μm左右較佳,5~100μm左右更佳。The thickness of the aforementioned transparent protective film can be appropriately determined, but generally from the viewpoints of workability such as strength or handling, thin layer properties, etc., it is preferably about 1 to 500 μm, preferably about 1 to 300 μm, and more preferably about 5 to 100 μm.

將前述透明保護薄膜貼合於前述偏光膜之兩面時,其兩面透明保護薄膜可相同亦可互異。When the transparent protective film is attached to both sides of the polarizing film, the transparent protective films on both sides may be the same or different from each other.

前述透明保護薄膜可使用具有正面相位差為40nm以上及/或厚度方向相位差為80nm以上之相位差的相位差板。正面相位差通常係控制在40~200nm之範圍,厚度方向相位差通常係控制在80~300nm之範圍。使用相位差板作為前述透明保護薄膜時,該相位差板亦可發揮作為透明保護薄膜的功能,故能謀求薄型化。As the aforementioned transparent protective film, a retardation plate having a frontal retardation of 40 nm or more and/or a retardation of 80 nm or more in the thickness direction can be used. The frontal phase difference is usually controlled in the range of 40~200nm, and the thickness direction phase difference is usually controlled in the range of 80~300nm. When a phase difference plate is used as the above-mentioned transparent protective film, the phase difference plate can also function as a transparent protective film, and therefore can be reduced in thickness.

作為前述相位差板,可舉例如將高分子素材進行單軸或雙軸延伸處理而成之雙折射性薄膜、液晶聚合物之定向薄膜、以薄膜支持液晶聚合物之定向層者等。相位差板之厚度並無特別限制,一般為20~150μm左右。此外,亦可於不具相位差之透明保護薄膜貼合前述相位板來使用。As the above-mentioned retardation plate, for example, a birefringent film obtained by uniaxially or biaxially stretching a polymer material, an oriented film of a liquid crystal polymer, a film supporting an oriented layer of a liquid crystal polymer, etc. are mentioned. The thickness of the phase difference plate is not particularly limited, and is generally about 20 to 150 μm. In addition, it can also be used by pasting the aforementioned phase plate on a transparent protective film without phase difference.

前述透明保護薄膜中亦可包含有紫外線吸收劑、抗氧化劑、滑劑、塑化劑、脫模劑、抗著色劑、阻燃劑、抗靜電劑、顏料、著色劑等任意適當之添加劑。The aforementioned transparent protective film may also contain any appropriate additives such as ultraviolet absorbers, antioxidants, slip agents, plasticizers, release agents, anti-colorants, flame retardants, antistatic agents, pigments, and colorants.

前述透明保護薄膜之不貼合偏光膜的面上可設置硬塗層、抗反射層、抗黏著層、擴散層或防眩層等機能層。另,上述硬塗層、抗反射層、抗黏著層、擴散層或防眩層等機能層除了可設置在保護薄膜其本身以外,還可另外設置成與保護薄膜分開的個體。Functional layers such as a hard coat layer, an anti-reflection layer, an anti-adhesion layer, a diffusion layer or an anti-glare layer can be provided on the surface of the aforementioned transparent protective film that is not attached to the polarizing film. In addition, functional layers such as the above-mentioned hard coat layer, anti-reflection layer, anti-adhesion layer, diffusion layer, or anti-glare layer may be provided in addition to the protective film itself, or may be separately provided as an individual from the protective film.

前述偏光膜與前述透明保護薄膜、或前述偏光膜與前述機能層一般係透過黏著劑層或接著劑層貼合。The aforementioned polarizing film and the aforementioned transparent protective film, or the aforementioned polarizing film and the aforementioned functional layer are generally bonded through an adhesive layer or an adhesive layer.

形成前述黏著劑層之黏著劑可應用可用於偏光薄膜之各種黏著劑,可舉例如橡膠系黏著劑、丙烯酸系黏著劑、聚矽氧系黏著劑、胺甲酸酯系黏著劑、乙烯基烷基醚系黏著劑、聚乙烯醇系黏著劑、聚乙烯基吡咯啶酮系黏著劑、聚丙烯醯胺系黏著劑、纖維素系黏著劑等。該等中宜為丙烯酸系黏著劑。The adhesive that forms the aforementioned adhesive layer can be applied to various adhesives that can be used for polarizing films, such as rubber-based adhesives, acrylic adhesives, silicone-based adhesives, urethane-based adhesives, and vinyl alkanes. Base ether-based adhesives, polyvinyl alcohol-based adhesives, polyvinylpyrrolidone-based adhesives, polyacrylamide-based adhesives, cellulose-based adhesives, etc. Among these, acrylic adhesives are preferred.

形成黏著劑層之方法可例示如以下方法等:將前述黏著劑塗佈於經剝離處理之分離件等,並進行乾燥而形成黏著劑層後,再轉印至偏光膜等之方法;或將前述黏著劑塗佈於偏光膜等,並進行乾燥而形成黏著劑層之方法。前述黏著劑層的厚度無特別限制,例如為1~100μm左右,且宜為2~50μm左右。The method of forming the adhesive layer can be exemplified by the following method: coating the aforementioned adhesive on a peeled-off part, etc., and drying to form an adhesive layer, and then transferring to a polarizing film, etc.; or The aforementioned adhesive is applied to a polarizing film, etc., and dried to form an adhesive layer. The thickness of the aforementioned adhesive layer is not particularly limited, and is, for example, about 1 to 100 μm, and preferably about 2 to 50 μm.

形成前述接著劑層之接著劑可應用可用於偏光薄膜之各種接著劑,可舉例如異氰酸酯系接著劑、聚乙烯醇系接著劑、明膠系接著劑、乙烯基系乳膠系、水系聚酯等。該等接著劑通常係以由水溶液構成之接著劑來使用,含有0.5~60重量%之固體成分而成。Various adhesives that can be used for polarizing films can be applied to the adhesive forming the aforementioned adhesive layer, and examples thereof include isocyanate-based adhesives, polyvinyl alcohol-based adhesives, gelatin-based adhesives, vinyl-based latex-based, water-based polyesters, and the like. These adhesives are usually used as an adhesive composed of an aqueous solution and contain 0.5 to 60% by weight of solid content.

前述接著劑除上述外,還可舉紫外線硬化型接著劑、電子束硬化型接著劑等活性能量射線硬化型接著劑。前述活性能量射線硬化型接著劑可舉例如(甲基)丙烯酸酯系接著劑。前述(甲基)丙烯酸酯系接著劑之硬化性成分可舉例如具有(甲基)丙烯醯基之化合物、具有乙烯基之化合物。又,陽離子聚合硬化型接著劑亦可使用具有環氧基或氧雜環丁烷基之化合物。具有環氧基之化合物只要是分子內具有至少2個環氧基者,則無特別限制,可使用一般已知的各種硬化性環氧化合物。In addition to the above-mentioned adhesives, active energy ray-curable adhesives such as ultraviolet-curable adhesives and electron beam-curable adhesives can be cited. Examples of the active energy ray-curable adhesive agent include (meth)acrylate-based adhesive agents. Examples of the curable component of the (meth)acrylate-based adhesive include a compound having a (meth)acryloyl group and a compound having a vinyl group. Moreover, the cationic polymerization hardening type adhesive agent can also use the compound which has an epoxy group or an oxetanyl group. The compound having an epoxy group is not particularly limited as long as it has at least two epoxy groups in the molecule, and various generally known curable epoxy compounds can be used.

前述接著劑的塗佈可對前述透明保護薄膜側(或前述機能層側)、前述偏光膜側之任一者進行,亦可對兩者進行。於貼合後,施行乾燥步驟,形成由塗佈乾燥層構成之接著劑層。可於前述乾燥步驟後,因應需要照射紫外線或電子束。前述接著劑層之厚度無特別限制,於使用水系接著劑等時,宜為30~5000nm左右,100~1000nm左右較佳,而於使用紫外線硬化型接著劑、電子束硬化型接著劑等時,宜為0.1~100μm左右,0.5~10μm左右較佳。The application of the adhesive may be performed on either the transparent protective film side (or the functional layer side) and the polarizing film side, or both. After bonding, a drying step is performed to form an adhesive layer composed of a coated dry layer. After the aforementioned drying step, ultraviolet light or electron beam can be irradiated as needed. The thickness of the aforementioned adhesive layer is not particularly limited. When using water-based adhesives, etc., it is preferably about 30 to 5000 nm, preferably about 100 to 1000 nm. When using ultraviolet curing type adhesives, electron beam curing type adhesives, etc., It is preferably about 0.1 to 100 μm, preferably about 0.5 to 10 μm.

前述透明保護薄膜與前述偏光膜或前述偏光膜與前述機能層亦可隔著表面改質處理層、易接著劑層、阻隔層、折射率調整層等中介層而積層。The transparent protective film and the polarizing film or the polarizing film and the functional layer may be laminated via an intermediary layer such as a surface modification treatment layer, an easy-adhesive layer, a barrier layer, and a refractive index adjustment layer.

形成前述表面改質層之表面改質處理可舉例如電暈處理、電漿處理、底漆處理、皂化處理等。The surface modification treatment for forming the aforementioned surface modification layer includes, for example, corona treatment, plasma treatment, primer treatment, saponification treatment, and the like.

形成前述易接著層之易接著劑可舉例如包含具有下述骨架之各種樹脂的形成材:聚酯骨架、聚醚骨架、聚碳酸酯骨架、聚胺甲酸酯骨架、聚矽氧系、聚醯胺骨架、聚醯亞胺骨架、聚乙烯醇骨架等。前述易接著層通常會事先設於保護薄膜上,並藉由前述黏著劑層或前述接著劑層將該保護薄膜之易接著層側與偏光膜積層。Examples of the easy-adhesive agent forming the aforementioned easy-adhesive layer include forming materials containing various resins having the following skeletons: polyester skeleton, polyether skeleton, polycarbonate skeleton, polyurethane skeleton, polysiloxane, poly Amide skeleton, polyimide skeleton, polyvinyl alcohol skeleton, etc. The aforementioned easy-adhesive layer is usually provided on the protective film in advance, and the easy-adhesive layer side of the protective film and the polarizing film are laminated by the aforementioned adhesive layer or the aforementioned adhesive layer.

前述阻隔層係具有用來防止從透明保護薄膜等溶出之寡聚物或離子等不純物移動(侵入)至偏光膜中之功能的層。前述阻隔層只要是具有透明性且可防止從透明保護薄膜等溶出之不純物的層即可,形成阻隔層之材可舉例如胺甲酸酯預聚物系形成材、氰基丙烯酸酯系形成材、環氧系形成材等。The aforementioned barrier layer has a function of preventing impurities such as oligomers or ions eluted from the transparent protective film from moving (intruding) into the polarizing film. The aforementioned barrier layer may be a layer that has transparency and can prevent impurities eluted from a transparent protective film, etc. The material for forming the barrier layer includes, for example, a urethane prepolymer-based forming material and a cyanoacrylate-based forming material. , Epoxy-based forming materials, etc.

前述折射率調整層係為了抑制伴隨在前述透明保護薄膜與偏光膜等折射率不同之層間的反射而透射率降低所設置之層。形成前述折射率調整層之折射率調整材可舉例如包含具有二氧化矽系、丙烯酸系、丙烯酸-苯乙烯系、三聚氰胺系等之各種樹脂及添加劑的形成劑。The refractive index adjustment layer is a layer provided in order to suppress a decrease in transmittance caused by reflection between layers having different refractive indexes such as the transparent protective film and the polarizing film. Examples of the refractive index adjusting material that forms the refractive index adjusting layer include forming agents containing various resins and additives such as silica-based, acrylic-based, acrylic-styrene-based, and melamine-based resins.

前述偏光薄膜之偏光度宜為99.98%以上,偏光度為99.99%以上較佳。The degree of polarization of the aforementioned polarizing film is preferably 99.98% or more, and the degree of polarization is preferably 99.99% or more.

實施例 以下列舉實施例來更詳細說明本發明,惟本發明不僅受限於該等實施例。Example Examples are listed below to illustrate the present invention in more detail, but the present invention is not limited to these examples.

<實施例1> <製造偏光膜> <製造(準備)積層體(II-0)> 熱塑性樹脂基材是使用長條狀且吸水率0.75%、Tg約75℃之非晶質間苯二甲酸共聚聚對苯二甲酸乙二酯薄膜(厚度:100μm)。並對樹脂基材之單面施行了電暈處理。在以9:1混合聚乙烯醇(聚合度4200,皂化度99.2莫耳%)及乙醯乙醯基改質PVA(日本合成化學工業公司製,商品名「GOHSEFIMER Z410」)而成之PVA系樹脂100重量份中,添加碘化鉀13重量份,而調製出PVA水溶液(塗佈液)。於樹脂基材之電暈處理面塗佈上述PVA水溶液並在60℃下乾燥,藉此形成厚度13μm之PVA系樹脂層,而製作(準備)出積層體。<Example 1> <Manufacture of polarizing film> <Manufacturing (preparing) laminated body (II-0)> The thermoplastic resin substrate is an amorphous isophthalic acid copolymer polyethylene terephthalate film (thickness: 100 μm) with a water absorption rate of 0.75% and a Tg of about 75°C. And applied corona treatment to one side of the resin substrate. In a 9:1 mixture of polyvinyl alcohol (polymerization degree 4200, saponification degree 99.2 mol%) and acetyl acetyl modified PVA (manufactured by Nippon Synthetic Chemical Industry Co., Ltd., trade name "GOHSEFIMER Z410"). To 100 parts by weight of resin, 13 parts by weight of potassium iodide was added to prepare a PVA aqueous solution (coating liquid). The above-mentioned PVA aqueous solution was applied to the corona-treated surface of the resin substrate and dried at 60°C to form a PVA-based resin layer with a thickness of 13 μm, and a laminate was produced (prepared).

<製造具有含有水之偏光膜的積層體之步驟(II-1)> 將所得積層體於130℃之烘箱內在周速相異之輥間沿縱方向(長邊方向)進行自由端單軸延伸成2.4倍(空中輔助延伸處理步驟)。接著,使積層體浸漬於液溫40℃的不溶解浴(相對於水100重量份摻混4重量份之硼酸而得的硼酸水溶液)中30秒(不溶解處理步驟)。接著,調整液溫30℃的染色浴(相對於水100重量份,以1:7之重量比摻混碘與碘化鉀而得之碘水溶液)之濃度以使最後所得偏光膜的單體透射率(Ts)成為相同程度同時於其中浸漬60秒(染色處理步驟)。接著,使其浸漬於液溫40℃的交聯浴(相對於水100重量份摻混3重量份的碘化鉀並摻混5重量份的硼酸而獲得之硼酸水溶液)中30秒(交聯處理步驟)。然後,一邊使積層體浸漬於液溫70℃的硼酸水溶液(硼酸濃度:4.0重量%)中,一邊在周速相異的輥間沿縱方向(長邊方向)進行單軸延伸成總延伸倍率成為5.5倍(水中延伸處理步驟)。之後,使積層體浸漬於液溫20℃的洗淨浴(相對於水100重量份,摻混4重量份的碘化鉀而得之水溶液)中,而製作出具有含有水之偏光膜的積層體(洗淨處理步驟)。<Steps of manufacturing a laminate with a polarizing film containing water (II-1)> The obtained laminate was uniaxially stretched to 2.4 times in the longitudinal direction (longitudinal direction) between rollers with different peripheral speeds in an oven at 130°C (air-assisted stretch processing step). Next, the layered body was immersed in an insoluble bath (a boric acid aqueous solution obtained by mixing 4 parts by weight of boric acid with respect to 100 parts by weight of water) at a liquid temperature of 40°C for 30 seconds (insoluble treatment step). Next, adjust the concentration of the dyeing bath (an iodine aqueous solution obtained by mixing iodine and potassium iodide in a weight ratio of 1:7 with respect to 100 parts by weight of water) at a liquid temperature of 30°C so that the monomer transmittance ( Ts) becomes the same degree while immersed therein for 60 seconds (dyeing treatment step). Next, it was immersed in a cross-linking bath (a boric acid aqueous solution obtained by mixing 3 parts by weight of potassium iodide and 5 parts by weight of boric acid with respect to 100 parts by weight of water with a liquid temperature of 40°C) for 30 seconds (cross-linking treatment step) ). Then, while immersing the layered body in a boric acid aqueous solution (boric acid concentration: 4.0% by weight) at a liquid temperature of 70°C, uniaxially stretched in the longitudinal direction (longitudinal direction) between rolls with different peripheral speeds to achieve a total stretch magnification. It becomes 5.5 times (in the water extension treatment step). After that, the layered body was immersed in a washing bath (an aqueous solution obtained by mixing 4 parts by weight of potassium iodide with respect to 100 parts by weight of water) at a liquid temperature of 20°C to produce a layered body having a polarizing film containing water ( Washing treatment steps).

<製造具有浸潤有液體中之成分的偏光膜之積層體(II-2)> 使用線棒(第一理化股份公司製,No.3),於上述獲得之具有含有水的偏光膜之積層體的偏光膜面塗佈液體A(化學式(9)所示化合物10重量%水溶液),並靜置於25℃下3秒鐘後,拭去殘存於表面之液體A,製造出具有浸潤有液體中之成分的偏光膜之積層體。此處,以下述測定方法求得之含有水的偏光膜之水分率為35.5重量%。又,以下述測定方法求得之具有含有水之偏光膜的積層體中之偏光膜,(對)液體A之接觸角為45.2°。 [化學式9]

Figure 02_image017
…(9)<Production of a laminate with a polarizing film impregnated with a liquid component (II-2)> Using a wire rod (manufactured by Daiichi Rika Co., Ltd., No. 3), a laminate with a polarizing film containing water was obtained above The polarizing film surface is coated with Liquid A (10% by weight aqueous solution of the compound represented by the chemical formula (9)), and after standing at 25°C for 3 seconds, the liquid A remaining on the surface is wiped off to produce an infiltrating liquid The laminated body of the polarizing film of the composition. Here, the water content of the polarizing film containing water obtained by the following measurement method is 35.5 wt%. In addition, the contact angle of the liquid A (to) the polarizing film in the laminate having the polarizing film containing water obtained by the following measurement method was 45.2°. [Chemical formula 9]
Figure 02_image017
…(9)

[偏光膜中之水分率(重量%)之測定方法] 量測約0.2g之偏光膜,並使其在120℃下乾燥2小時後,測定乾燥後之重量,並根據下述式算出偏光膜中的水分率(W)。 偏光膜之水分率 W(重量%)={(M0 -M1 )/M0 }×100 M0 :測得之偏光膜重量(g) M1 :在120℃下乾燥2小時後之偏光膜重量(g)[Method for measuring the moisture content (weight%) in the polarizing film] Measure about 0.2g of the polarizing film and dry it at 120°C for 2 hours, then measure the weight after drying, and calculate the polarizing film according to the following formula The moisture content (W). The moisture content of the polarizing film W (weight%)={(M 0 -M 1 )/M 0 }×100 M 0 : the measured weight of the polarizing film (g) M 1 : the polarized light after drying at 120°C for 2 hours Film weight (g)

[接觸角之測定方法] 上述接觸角係依循JIS R 3257對貼附於載玻片上之前述含有水之偏光膜以液滴法進行測定。測定係進行5次並以其平均值為接觸角之值。 測定裝置:自動接觸角計 CA-X型(協和界面化學股份公司製) 測定氣體環境:23℃50%RH 測定液體:液體A 水滴容量:1μL 測定時間:滴上1秒後[Method of measuring contact angle] The above-mentioned contact angle is measured by the drop method of the above-mentioned water-containing polarizing film attached to a glass slide in accordance with JIS R 3257. The measurement was performed 5 times and the average value was used as the value of the contact angle. Measuring device: Automatic contact angle meter CA-X type (manufactured by Kyowa Interface Chemical Co., Ltd.) Measuring gas environment: 23℃50%RH Measuring liquid: Liquid A Water drop capacity: 1μL Measuring time: 1 second after dripping

<製造乾燥後之偏光膜(II-3)> 於經保持於95℃之烘箱中乾燥10分鐘(乾燥處理步驟)。經由以上程序,於樹脂基材上形成了厚度5μm之偏光膜。利用上述測定方法求得之乾燥後之偏光膜的水分率為9.9重量%。利用下述測定方法求得之偏光膜中之化學式(9)所示化合物之含量(MH )為0.41重量%,每單位面積之化學式(9)所示化合物之含量(mH )為2.5μg/cm2<Production of dried polarizing film (II-3)> It was dried in an oven maintained at 95°C for 10 minutes (drying treatment step). Through the above procedures, a polarizing film with a thickness of 5 μm was formed on the resin substrate. The moisture content of the polarized film after drying obtained by the above measurement method was 9.9% by weight. The content (M H ) of the compound represented by the chemical formula (9) in the polarizing film obtained by the following measurement method is 0.41% by weight, and the content (m H ) of the compound represented by the chemical formula (9) per unit area is 2.5 μg /cm 2 .

[偏光膜中之化學式(9)所示化合物之含量(重量%)的測定方法] 採取約20mg的偏光膜並定量,於水1mL中加熱溶解後,以甲醇4.5mL稀釋,再將所得萃取液以膜濾器過濾,並將濾液使用HPLC(Waters公司製 ACQUITY UPLC H-class Bio)測定化學式(9)所示化合物之濃度。[Method for measuring the content (wt%) of the compound represented by the chemical formula (9) in the polarizing film] About 20 mg of the polarizing film was taken and quantified. After heating and dissolving in 1 mL of water, it was diluted with 4.5 mL of methanol, and the obtained extract was filtered with a membrane filter, and the filtrate was measured by HPLC (ACQUITY UPLC H-class Bio manufactured by Waters) The concentration of the compound represented by formula (9).

[偏光膜中之每單位面積之化學式(9)所示化合物之含量(μg/cm2 )的測定方法] 根據下述式算出每單位面積之化學式(9)所示化合物之含量(mH )。 mH =1.2×T×MH (μg/cm2 ) T:偏光膜的厚度(μm) MH :偏光膜中之化學式(9)所示化合物之含量(重量%)[Method for measuring the content of the compound represented by the chemical formula (9) per unit area in the polarizing film (μg/cm 2 )] Calculate the content of the compound represented by the chemical formula (9) per unit area (m H ) according to the following formula . m H =1.2×T×M H (μg/cm 2 ) T: the thickness of the polarizing film (μm) M H : the content of the compound represented by the chemical formula (9) in the polarizing film (wt%)

<製造偏光薄膜> 接著劑係使用以下水溶液:以重量比3:1含有含乙醯乙醯基之聚乙烯醇樹脂(平均聚合度1,200,皂化度98.5莫耳%,乙醯乙醯基化度5莫耳%)與羥甲基三聚氰胺者。使用該接著劑以輥貼合機將具有硬塗層的厚度40μm之三醋酸纖維素薄膜(透濕度為342g/(m2 ・24h),Konica Minolta製,商品名「KC4UYW」)貼合至上述所得偏光膜之與樹脂基材相反之面後,接著於烘箱內使其加熱乾燥(溫度為60℃,時間為4分鐘),而製作出於偏光膜之單面貼合有透明保護薄膜的偏光薄膜。接著,剝離樹脂基材,並於經剝離後之面使用上述接著劑以輥貼合機貼合上述三醋酸纖維素薄膜後,接著於烘箱內進行加熱乾燥(溫度為60℃,時間為4分鐘),製造出於偏光膜之兩面貼合有透明保護薄膜的偏光薄膜。<Production of polarizing film> The following aqueous solution is used as the adhesive: a weight ratio of 3:1 containing a polyvinyl alcohol resin containing an acetyl group (average degree of polymerization 1,200, degree of saponification 98.5 mol%, degree of acetylation degree 5 mol%) and methylol melamine. Using this adhesive, a 40μm-thick cellulose triacetate film (with a moisture permeability of 342g/(m 2 ·24h), manufactured by Konica Minolta, trade name "KC4UYW") with a hard coat layer and a roll laminator was bonded to the above After the obtained polarizing film is on the opposite side of the resin substrate, it is then heated and dried in an oven (temperature is 60°C, time is 4 minutes) to produce a polarizer with a transparent protective film attached to one side of the polarizing film film. Next, peel off the resin substrate, and use the adhesive to bond the triacetate cellulose film with a roll laminator on the peeled surface, and then heat and dry it in an oven (temperature 60°C, time 4 minutes ), to manufacture a polarizing film with a transparent protective film attached to both sides of the polarizing film.

[偏光度之測定方法] 偏光薄膜之偏光度可使用分光光度計(日本分光製,製品名「V7100」)來測定。偏光度之具體測定方法,可測定偏光膜之平行透射率(H0)及正交透射率(H90),並由式:偏光度(%)={(H0-H90)/(H0+H90)}1/2×100來求得。平行透射率(H0)係平行型積層偏光膜的透射率之值,該平行型積層偏光膜係將兩片相同偏光膜疊合成雙方的吸收軸平行而製成者。又,正交透射率(H90)係正交型積層偏光膜的透射率之值,該正交型積層偏光膜係將兩片相同偏光膜疊合成雙方的吸收軸正交而製成者。此外,該等透射率係以JIS Z 8701-1982之2度視野(C光源)進行視感度校正所得之Y值。[Method of measuring polarization degree] The degree of polarization of the polarizing film can be measured using a spectrophotometer (manufactured by JASCO, product name "V7100"). The specific method for measuring the degree of polarization can be used to determine the parallel transmittance (H0) and orthogonal transmittance (H90) of the polarizing film, and the formula: Polarization (%) = {(H0-H90)/(H0+H90)} 1/2×100 to find. The parallel transmittance (H0) is the value of the transmittance of the parallel-type laminated polarizing film, which is made by stacking two identical polarizing films so that the absorption axes of both sides are parallel. In addition, the cross transmittance (H90) is the value of the transmittance of the cross-type laminated polarizing film, which is made by stacking two identical polarizing films so that the absorption axes of both sides are orthogonal to each other. In addition, the transmittance is the Y value obtained by the visual sensitivity correction of the 2 degree field of view (C light source) of JIS Z 8701-1982.

[加熱耐久性評估] 將上述獲得之偏光薄膜以使偏光膜之吸收軸與長邊平行之方式裁切成5.0×4.5cm之尺寸,並透過厚度20μm之丙烯酸系黏著劑層將玻璃板(模擬影像顯示單元)貼合於偏光薄膜的影像顯示單元側之保護薄膜面,再於50℃、0.5MPa下進行15分鐘高壓釜處理,而製作出積層體。將所得積層體靜置於溫度95℃之熱風烘箱內,以肉眼按以下基準判定至著色為止之時間。 ○:750小時以上未著色。 △:於750小時以上且少於500小時著色。 ×:於少於500小時著色。[Evaluation of heating durability] The polarizing film obtained above is cut into a size of 5.0×4.5 cm so that the absorption axis of the polarizing film is parallel to the long side, and the glass plate (analog display unit) is bonded through the acrylic adhesive layer with a thickness of 20 μm On the protective film surface of the polarizing film on the image display unit side, autoclave treatment was performed at 50° C. and 0.5 MPa for 15 minutes to produce a laminate. The resulting laminate was placed in a hot-air oven at a temperature of 95°C, and the time until coloring was judged by the naked eye based on the following criteria. ○: No coloring for more than 750 hours. △: Coloring in 750 hours or more and less than 500 hours. ×: Coloring in less than 500 hours.

<實施例2> <製造偏光膜及偏光薄膜> 將洗淨處理步驟後的偏光膜於60℃下乾燥1分鐘後,塗佈液體A,除此之外依與實施例1相同操作,製作出偏光膜及偏光薄膜並進行上述測定。將結果列於表1。<Example 2> <Manufacture of polarizing film and polarizing film> After drying the polarizing film after the washing treatment step at 60° C. for 1 minute, liquid A was applied, except that the same operation as in Example 1 was followed to produce a polarizing film and a polarizing film, and the above measurement was performed. The results are listed in Table 1.

<比較例1> <製造偏光膜及偏光薄膜> 將洗淨處理步驟後的偏光膜於95℃下乾燥10分鐘後,塗佈液體A,除此之外依與實施例1相同操作,製作出偏光膜及偏光薄膜並進行上述測定。將結果列於表1。<Comparative example 1> <Manufacture of polarizing film and polarizing film> After drying the polarizing film after the washing treatment step at 95°C for 10 minutes, liquid A was applied, except that the same operation as in Example 1 was followed to produce a polarizing film and a polarizing film, and the above measurement was performed. The results are listed in Table 1.

[表1]

Figure 02_image019
[Table 1]
Figure 02_image019

(無)(no)

Claims (8)

一種偏光膜之製造方法,特徵在於: 其包含以下步驟: 步驟(I-1),係一邊將聚乙烯醇系薄膜沿長邊方向輸送,一邊對前述聚乙烯醇系薄膜施行至少染色步驟、交聯步驟及延伸步驟,而製造含有水之偏光膜; 步驟(I-2),係對所得含有水之偏光膜施行塗佈液體之步驟,而製造浸潤有液體中之成分的偏光膜;及 步驟(I-3),對所得浸潤有液體中之成分的偏光膜施行乾燥步驟,而製造乾燥後之偏光膜; 並且,前述含有水之偏光膜之前述液體之接觸角為55°以下。A manufacturing method of polarizing film, characterized in that: It includes the following steps: In step (I-1), while transporting the polyvinyl alcohol-based film in the longitudinal direction, at least the dyeing step, the cross-linking step, and the stretching step are performed on the polyvinyl alcohol-based film to produce a polarizing film containing water; Step (I-2) is a step of applying a liquid to the obtained polarizing film containing water to produce a polarizing film impregnated with the components in the liquid; and Step (I-3), drying the obtained polarizing film impregnated with the components in the liquid to produce a dried polarizing film; In addition, the contact angle of the liquid of the polarizing film containing water is 55° or less. 一種偏光膜之製造方法,特徵在於: 其包含以下步驟: 步驟(II-0),係於長條狀熱塑性樹脂基材之單側形成含聚乙烯醇系樹脂之聚乙烯醇系樹脂層來準備積層體; 步驟(II-1),係一邊將所得積層體沿長邊方向輸送,一邊對前述積層體施行至少空中輔助延伸處理步驟、染色處理步驟及水中延伸處理步驟,而製造具有含有水之偏光膜的積層體; 步驟(II-2),係對所得具有含有水之偏光膜的積層體施行塗佈液體之步驟,而製造具有浸潤有液體中之成分的偏光膜之積層體;及 步驟(II-3),對所得具有浸潤有液體中之成分的偏光膜之積層體施行乾燥處理步驟,而製造乾燥後之偏光膜; 並且,前述具有含有水之偏光膜的積層體中之偏光膜之前述液體之接觸角為55°以下。A manufacturing method of polarizing film, characterized in that: It includes the following steps: Step (II-0) is to form a polyvinyl alcohol-based resin layer containing polyvinyl alcohol-based resin on one side of the elongated thermoplastic resin substrate to prepare a laminate; Step (II-1) is to carry out at least an aerial auxiliary stretching treatment step, a dyeing treatment step, and an underwater stretching treatment step on the aforementioned layered body while transporting the resulting laminated body in the longitudinal direction to produce a polarizing film containing water Layered body Step (II-2) is a step of applying a liquid to the obtained laminate having a polarizing film containing water to produce a laminate having a polarizing film impregnated with components in the liquid; and In step (II-3), a drying treatment step is performed on the obtained laminate having a polarizing film infiltrated with a component in a liquid to produce a dried polarizing film; In addition, the contact angle of the liquid of the polarizing film in the laminate having the polarizing film containing water is 55° or less. 如請求項1或2之偏光膜之製造方法,其中前述液體為溶液,前述液體中之成分為溶質。The method for manufacturing a polarizing film of claim 1 or 2, wherein the liquid is a solution, and the components in the liquid are solutes. 如請求項1至3中任一項之偏光膜之製造方法,其中前述乾燥後之偏光膜之水分率為20重量%以下。The method for manufacturing a polarizing film according to any one of claims 1 to 3, wherein the moisture content of the polarizing film after drying is 20% by weight or less. 如請求項1至4中任一項之偏光膜之製造方法,其中前述液體中之成分為水溶性化合物。The method for manufacturing a polarizing film according to any one of claims 1 to 4, wherein the component in the liquid is a water-soluble compound. 如請求項1至5中任一項之偏光膜之製造方法,其中前述液體中之成分係選自於由自由基捕捉劑、交聯劑、塑化劑及染料所構成群組中之至少1者。The method for manufacturing a polarizing film according to any one of claims 1 to 5, wherein the ingredients in the liquid are at least one selected from the group consisting of a radical scavenger, a crosslinking agent, a plasticizer, and a dye By. 如請求項1至6中任一項之偏光膜之製造方法,其中前述液體中之成分為自由基捕捉劑。The method for manufacturing a polarizing film according to any one of claims 1 to 6, wherein the component in the liquid is a radical scavenger. 一種偏光薄膜之製造方法,特徵在於包含以下步驟:於以如請求項1至7中任一項之偏光膜之製造方法獲得之偏光膜之至少單面透過接著劑層貼合透明保護薄膜。A method for manufacturing a polarizing film is characterized by including the following steps: laminating a transparent protective film on at least one side of the polarizing film obtained by the method for manufacturing a polarizing film according to any one of claims 1 to 7 through an adhesive layer.
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