TW201741379A - 附有皮膜之樹脂基材及其製造方法、以及皮膜形成方法 - Google Patents
附有皮膜之樹脂基材及其製造方法、以及皮膜形成方法 Download PDFInfo
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Abstract
本發明之附有皮膜之樹脂基材之製造方法包含:對包含強化纖維材(10)之樹脂基材(20)供給至少包含氟氣之表面處理氣體,而於樹脂基材(20)之表面形成脆化區域,將存在於樹脂基材(20)之表面附近之強化纖維材(10)之至少一部分改質之步驟;去除至少脆化區域而於樹脂基材(20)形成凸凹面,於凸凹面中使強化纖維材(10)至少部分地露出之步驟;及於樹脂基材(20)之凸凹面上形成皮膜(50)之步驟。
Description
本發明係關於一種附有皮膜之樹脂基材及其製造方法、以及皮膜形成方法。
專利文獻1揭示密接性優異之塑膠之鍍覆方法。該文獻於技術方案1中揭示「對塑膠之基體表面進行無電鍍覆時,預先使該基體表面與以氟氣及惰性氣體為主體之混合氣體接觸,而將該表面蝕刻或活化」。該文獻於實施例3中記載「將聚碳酸酯板狀成型體(厚度3 mm×50 mm×100 m,三菱化成製造)放入至1 L之石英玻璃瓶中,利用氮氣進行置換之後,通入包括氟氣20 cc/min、氮氣150 cc/min及氧氣1 cc/min之混合氣體20分鐘。繼而,與實施例1同樣地使用Sn-Pd進行活化之後,於1 L之鍍覆液中浸漬1小時,而獲得5.7 mm之鎳皮膜」。再者,此處所述之使用Sn-Pd進行之活化係指觸媒活化預處理之代表例之二液法(敏化-活化法)。 專利文獻2揭示經表面改質之樹脂基材之製造方法。關於課題,該文獻於段落0006中闡述:「本發明提供一種樹脂基材之製造方法,其不僅如……先前技術般利用氟氣或氟氣與惰性氣體之混合氣體對樹脂材料之表面進行化學改質,而且對其表面進行物理改質,藉此,能夠容易製造具有與鍍覆皮膜等之密接性優異之表面狀態之樹脂基材」、及「所謂「對表面進行物理改質」,係指以於其表面形成凹凸之方式進行改質」。該文獻於技術方案1中揭示「使樹脂基材與氟氣接觸,使該樹脂基材之表面氟化之後,使醇與該經氟化之樹脂基材之表面接觸」。 專利文獻3揭示於聚烯烴系樹脂基材上進行金屬鍍覆之方法。該文獻於段落0008中闡述「金屬鍍覆皮膜難以與聚烯烴系樹脂基材之表面密接而容易自該表面剝離係周知之事實」。進而,該文獻於段落0009中闡述「本發明者等人反覆進行了努力研究,結果令人吃驚地發現如下全新的事實,即,於先前技術中,認為若氟氣濃度超過10%,則鍍覆皮膜不會附著於聚烯烴系樹脂基材之表面,相對於此,於使用純度為70%以上之氟氣(氟氣之含有率:70%以上)而且將該氟氣於減壓度較高之狀態下使該氟氣與聚烯烴系樹脂基材接觸之情形時,能夠使金屬鍍覆皮膜、塗膜、接著劑層(以下,為方便起見,稱為「金屬鍍覆皮膜等」)非常牢固地密接於聚烯烴系樹脂基材之表面」。 先前技術文獻 專利文獻 專利文獻1:日本專利特公平6-76668號公報 專利文獻2:日本專利第5474626號公報 專利文獻3:日本專利第5824310號公報
[發明所欲解決之問題] 專利文獻1至3揭示使用氟氣於樹脂基材之表面形成凹凸,即,基於氟氣進行蝕刻。然而,皮膜對藉由此種手法達成之樹脂基材之密接強度未必能夠令人滿足。 [解決問題之技術手段] 本發明之一態樣之附有皮膜之樹脂基材之製造方法包含:對包含強化纖維材(10)之樹脂基材(20)供給至少包含氟氣之表面處理氣體,而於上述樹脂基材(20)之表面形成脆化區域,將存在於上述樹脂基材(20)之表面附近之上述強化纖維材(10)之至少一部分改質之步驟; 去除至少上述脆化區域而於上述樹脂基材(20)形成凸凹面,於上述凸凹面中使上述強化纖維材(10)至少部分地露出之步驟;及 於上述樹脂基材(20)之凸凹面上形成皮膜(50)之步驟。 於若干情形時,藉由去除上述脆化區域,而沿於上述凸凹面中部分地露出之上述強化纖維材(10)之外周形成凹陷之深凹部(40),上述深凹部(40)被上述皮膜(50)填埋。 於若干情形時,藉由上述表面處理氣體之作用,而將上述強化纖維材(10)至少部分地多孔化。 於若干情形時,藉由將形成有上述脆化區域之上述樹脂基材(20)浸漬於酸性溶液,而去除上述脆化區域。 於若干情形時,上述酸性溶液包含選自由鹽酸、硫酸及硝酸所組成之群中之1種以上。 於若干情形時,上述樹脂基材(20)包含玻璃纖維作為上述強化纖維材(10),且上述樹脂基材(20)包含10質量%~60質量%之玻璃纖維。 於若干情形時,上述樹脂基材(20)包含超過30質量%之玻璃纖維。 於若干情形時,上述皮膜(50)為鍍覆皮膜或塗裝皮膜。 於若干情形時,上述附有皮膜之樹脂基材為滑動零件。 於若干情形時,上述附有皮膜之樹脂基材為拉鏈用之滑件(95)。 本發明之另一態樣之附有皮膜之樹脂基材具備:包含強化纖維材(10)且具有上述強化纖維材(10)部分地露出之凸凹面之樹脂基材(20);及形成於上述樹脂基材(20)之上述凸凹面上之皮膜(50)。 於若干情形時,上述皮膜(50)將沿於上述凸凹面中部分地露出之上述強化纖維材(10)之外周凹陷之深凹部(40)填埋。 本發明之又一態樣之皮膜形成方法包含:對包含強化纖維材(10)之樹脂基材(20)供給至少包含氟氣之表面處理氣體,而於上述樹脂基材(20)之表面形成脆化區域,將存在於上述樹脂基材(20)之表面附近之上述強化纖維材(10)之至少一部分改質之步驟;去除至少上述脆化區域而於上述樹脂基材(20)形成凸凹面,於上述凸凹面中使上述強化纖維材(10)至少部分地露出之步驟;及於上述樹脂基材(20)之凸凹面上形成皮膜(50)之步驟。 [發明之效果] 根據本發明之一態樣,能夠提供一種密接強度得到改善之附有皮膜之樹脂基材。
以下,一面參照圖1至圖11,一面對本發明之實施形態進行說明。各實施形態並非各自獨立者。無需過度說明,業者便能夠將實施形態彼此組合。又,業者亦能夠理解由該組合產生之協同效果。原則上省略實施形態間之重複說明。參照圖式係以發明說明為主要目的者,視需要進行簡化。 圖1係本發明之例示形態之附有皮膜之樹脂基材之製造方法、及皮膜形成方法之概略流程圖。圖2(a)係樹脂基材之表面之概略模式圖。圖2(b)係形成有脆化區域之樹脂基材之表面之概略模式圖。圖3(a)係形成有脆化區域之樹脂基材之概略局部剖面模式圖,模式性地表示沿圖2(b)之III(a)-III(a)之概略剖面。圖3(b)係脆化區域去除後之樹脂基材之概略局部剖面模式圖。圖4(a)係利用無電鍍覆形成有鍍覆皮膜之樹脂基材之概略局部剖面模式圖。圖4(b)係追加利用電鍍形成有鍍覆皮膜之樹脂基材之概略局部剖面模式圖。圖5係本發明之例示形態之拉鏈之概略前視模式圖。圖6係實施例1之滑件之概略圖,表示圖7至圖9所示之局部剖面圖像之獲取位置。圖7表示圖6之滑件之A-1及A-2之位置處之局部剖面圖像。圖8表示圖6之滑件之B-1、B-2、C-1及C-2之位置處之局部剖面圖像。圖9表示圖6之滑件之C-3、C-4及C-5之位置處之局部剖面圖像。圖10係表示實施例1之鍍覆皮膜形成前之滑件之表面之圖像。圖10(a)描繪脆化區域形成前之滑件之樹脂基體之表面。圖10(b)及圖10(c)描繪脆化區域形成及去除後之滑件之樹脂基體之表面。圖11係表示實施例1之鍍覆皮膜形成後之滑件之局部剖面之圖像。圖11(b)係圖11(a)之放大版。 如圖1所示,本發明之附有皮膜之樹脂基材之製造方法及皮膜形成方法包含供給表面處理氣體之步驟(S1)、去除脆化區域之步驟(S2)、及形成皮膜之步驟(S3)。於供給表面處理氣體之步驟(S1)中,對包含強化纖維材(10)之樹脂基材(20)供給至少包含氟氣之表面處理氣體,而於樹脂基材(20)之表面形成脆化區域,將存在於樹脂基材(20)之表面附近之強化纖維材(10)之至少一部分改質。所謂「改質」,係指質或狀態之變化,當然亦包含「脆化」。於去除脆化區域之步驟(S2)中,去除至少脆化區域而於樹脂基材(20)形成凸凹面,於凸凹面中使強化纖維材(10)至少部分地露出。於形成皮膜之步驟(S3)中,於樹脂基材(20)之凸凹面上形成皮膜(50)。強化纖維材(10)部分地露出之凸凹面可促進皮膜之密接力之提昇。再者,以下,有時將包含強化纖維材之樹脂基材稱為「被鍍覆材」。 以下,更具體地進行說明,而非意欲進行特別之限定。於本實施形態中,當進行供給表面處理氣體之步驟(S1)時,包含氟氣之表面處理氣體與樹脂基材接觸,樹脂基材之表面大體上一致地脆化,又,存在於樹脂基材之表面附近之強化纖維材被改質,而形成脆化區域。由於樹脂基材與強化纖維材為不同材料,故而強化纖維材不會以與樹脂基材相同之態樣脆化。其有助於增加去除樹脂基材之脆化區域後之樹脂基材之凸凹面之粗糙度。凸凹面之粗糙度之增加可引起皮膜之密接力之增加。再者,包含氟氣之表面處理氣體並不限定於以氟氣為主成分之氣體,亦包括包含極少量之氟氣之氣體。 於若干情形時,藉由去除脆化區域,而沿於凸凹面中部分地露出之強化纖維材之外周形成凹陷之深凹部,從而有助於增加凸凹面之粗糙度。再者,該深凹部最終被皮膜填埋。於若干情形時,深凹部相對深於凸凹面之凹部,但未必限定於此。 於強化纖維材無序地分散於樹脂基材內之例中,對應於強化纖維材之位置而形成之上述深凹部亦無序地配置。皮膜對該無序配置之深凹部之填充可引起皮膜對樹脂基材之密接力提高。 由於樹脂基材與強化纖維材為不同材料,故而有可能存在即便在相同條件下進行改質,改質之態樣亦不同之情形。例如,於某情形時,樹脂基材之表面粗化為凸凹狀,另一方面,強化纖維材被多孔化。雖然無法斷定,但此種樹脂基材與強化纖維材不同之狀態可有助於提高皮膜對樹脂基材之密接力。有時將樹脂基材及/或強化纖維材經粗化之狀態稱為第1狀態,將樹脂基材及/或強化纖維材經多孔化之狀態稱為第2狀態。經粗化之狀態係指可藉由表面粗糙度之指標、例如算術平均粗糙度Ra或十點平均粗糙度Rz進行評價之表面之起伏。經多孔化之狀態係指於表面大體上一致或無序地形成有多個孔之狀態。經多孔化之狀態能夠使用表面顯微鏡進行觀察。 於步驟S1中,包含氟氣之表面處理氣體與樹脂基材接觸。於若干情形時,將包含強化纖維材之樹脂基材之被鍍覆材放入至反應容器內,於反應容器封閉之狀態下向反應容器內供給表面處理氣體。於若干情形時,對反應容器進行減壓,其後,向反應容器內供給表面處理氣體。藉此,表面處理氣體能夠與樹脂基材之表面接觸,又,亦能夠作用於樹脂基材之表面附近所存在之強化纖維材。藉由確保持續某程度之反應時間,表面處理氣體能夠充分地作用於自樹脂基材之表面至某深度之樹脂基材之表面部分及強化纖維材。再者,改質之進行速度可能依賴於樹脂基材及強化纖維材之材料。又,改質之進行速度可能依賴於表面處理氣體所包含之氟氣之濃度、使樹脂基材暴露於表面處理氣體之時間、使樹脂基材暴露於表面處理氣體時之溫度、及有無對樹脂基材及強化纖維材進行之預處理等。包含氟氣之表面處理氣體不應限定於特定組成之氣體。於若干情形時,表面處理氣體為氟氣與惰性氣體之混合氣體。惰性氣體例如為氮氣。於其他情形時,表面處理氣體除氟氣及氮氣以外亦包含氧氣。 脆化區域係指樹脂基材中變脆之區域。當藉由步驟S2去除脆化區域時所去除之脆化區域例如可包含引起樹脂基材之表面之粗化的樹脂基材之表面部分或存在於樹脂基材之表面附近之強化纖維材正上方的樹脂基材之表面部分。亦可去除引起強化纖維材之多孔化之強化纖維材之改質部分。藉由利用步驟S2去除脆化區域,而於樹脂基材之凸凹面中,存在於樹脂基材之表面附近之強化纖維材之一部分部分地露出。再者,亦可並非全部強化纖維材露出。於不經由步驟S2而形成皮膜之情形時,形成皮膜之後,容易於脆化區域與其下部之未脆化之區域之交界處產生剝離。藉由利用步驟S2去除脆化區域,而不會產生如上所述般之剝離,即便於強化纖維材未露出之區域,皮膜之密接性亦會提昇。強化纖維材之露出部分包括經包含氟氣之表面處理氣體改質之改質部分。藉由使凸凹之明顯化,可有效地提高皮膜對樹脂基材之密接力。藉由步驟S2,亦可使沿強化纖維材之露出部分之外周凹陷之深凹部明顯化。 去除脆化區域之方法不應限定於特定之方法。於若干情形時,採用乾式法或濕式法。於若干情形時,將步驟S1後之樹脂基材浸漬於酸性或鹼性溶液中,藉此去除脆化區域。所使用之酸性溶液可包含選自由鹽酸、硫酸及硝酸所組成之群中之1種以上。於某特定情形時,可使用鹽酸水溶液。可根據脆化或改質區域之材質選擇酸或鹼。 於步驟S3中,形成皮膜。形成皮膜之方法不應限定於特定之方法。於若干情形時,藉由無電鍍覆形成鍍覆皮膜。於若干情形時,藉由塗裝形成塗裝皮膜。皮膜亦可利用其他各種方法形成。再者,鍍覆皮膜可為金屬皮膜。塗裝皮膜可為樹脂皮膜。可使用各種樹脂,例如,可例示聚胺酯樹脂、環氧樹脂。樹脂皮膜可含有無機顏料。樹脂皮膜中可含有其他任意種類之添加物。 無電鍍覆之具體之方法可依據周知之方法進行。作為一例,包含觸媒賦予、加速及無電鍍覆。更詳細而言,藉由觸媒賦予步驟,而於步驟S2後之樹脂基材之表面吸附Pd-Sn錯合物。藉由加速步驟而去除Sn。藉由無電鍍覆步驟而以鈀為觸媒析出金屬膜,藉此形成鍍覆皮膜。鍍覆皮膜例如可為鎳、銅、鈷、鎳合金、銅合金、鈷合金等。鍍覆皮膜係以使樹脂基材之表面之凸凹面平坦化之方式形成為層狀。鍍覆皮膜係以與樹脂基材之表面中露出之強化纖維材之露出部分接觸之方式形成。於若干情形時,鍍覆皮膜將沿強化纖維材之露出部分之外周凹陷之深凹部填埋。 塗裝之具體之方法可依據周知之方法進行。作為一例,包含將被塗裝材浸漬於塗裝浴,繼而進行乾燥之操作。亦設想藉由噴霧方式於被塗裝材上形成塗裝皮膜。乾燥可藉由將形成有塗裝皮膜之塗裝物通入乾燥爐或暴露於熱風中而進行。乾燥可藉由自然乾燥進行。可使用各種塗料,例如油性塗料、水性塗料。 本發明中所說明之樹脂基材及強化纖維材不應限定於特定之材料。若對一例進行說明,則樹脂基材可包含聚酯、聚醯胺、聚烯烴、丙烯酸系樹脂、聚碳酸酯、ABS(acrylonitrile-butadiene-styrene,丙烯腈-丁二烯-苯乙烯)樹脂、AS(acrylonitrile-styrene,丙烯腈-苯乙烯)樹脂、聚苯乙烯、聚縮醛、聚醯亞胺、聚醯胺醯亞胺、三聚氰胺樹脂、脲樹脂、熱硬化性酚系樹脂、熱硬化性環氧樹脂、熱硬化性二甲苯樹脂等。聚酯包含聚對苯二甲酸乙二酯、聚對苯二甲酸丁二酯等。聚醯胺包含尼龍6、尼龍11、尼龍12、尼龍66、尼龍610、尼龍46、聚醯胺6T、聚醯胺6I、聚醯胺MXD6。聚烯烴包含聚乙烯、聚丙烯、乙烯-丙烯共聚物。亦能夠採用此處未列舉之其他材料。強化纖維材可為選自由玻璃纖維、碳纖維、硼纖維、芳香族聚醯胺纖維、聚乙烯纖維、及Zylon所組成之群中之1以上。 較理想為強化纖維材分佈於至少樹脂基材之表面附近。然而,使強化纖維材分佈於整個樹脂基材較為簡便,又,藉此可提高樹脂基材之強度。於若干情形時,採用玻璃纖維作為強化纖維材。樹脂基材包含10質量%~60質量%之玻璃纖維。樹脂基材包含超過30質量%之玻璃纖維。能夠使樹脂基材包含適當量之玻璃纖維,且使適當量之玻璃纖維存在於樹脂基材之表面附近。於樹脂基材包含玻璃纖維作為強化纖維材之情形時,有利地藉由包含氟氣之表面處理氣體而使樹脂基材之表面附近之玻璃纖維至少部分地多孔化。 關於分散於樹脂基材中之強化纖維材,於若干情形時,強化纖維材為直徑1~30 μm、長度10~300 μm。較佳為強化纖維材為直徑5 μm以上、直徑7 μm以上、直徑10 μm以上。較佳為強化纖維材為直徑20 μm以下、直徑17 μm以下、直徑15 μm以下。較佳為強化纖維材為長度100 μm以上、長度140 μm以上、長度180 μm以上。較佳為強化纖維材為長度250 μm以下、長度230 μm以下、長度210 μm以下。於採用玻璃纖維作為強化纖維材之情形時,玻璃之組成包含SiO2
、Al2
O3
等,其熔點例如為840℃(軟化點)。 參照圖2至圖4,對上述製造法進行補充說明。如圖2(a)所示,於樹脂基材20之表面附近無序地存在複數個強化纖維材10。強化纖維材10例如為直徑5~20 μm、長度100~250 μm之玻璃纖維。使強化纖維材10分散於樹脂基材20之方法能夠依照周知之方法來實施。通常,將強化纖維材分散於經熔融之樹脂材料而達成。當進行攪拌時,能夠使用包含葉輪之攪拌槽。樹脂基材例如將於樹脂材料中添加強化纖維材者射出而成形。於強化纖維材過大之情形時,樹脂基材之成形不佳。又,於強化纖維材過小之情形時,下述樹脂基材之凸凹面之算術平均粗糙度Ra變小,而無法獲得與皮膜充分密接之強度。 若將樹脂基材20暴露於包含氟氣之表面處理氣體中,則樹脂基材20之表面被一致脆化,而形成脆化區域25。藉由去除脆化區域25而於樹脂基材20之表面形成凸凹面26。強化纖維材10不與樹脂基材20同樣地脆化,而可如多孔化般改質。 於若干情形時,於強化纖維材10之附近,更清楚而言,沿強化纖維材10形成深脆化區域30。如圖2(b)所示,深脆化區域30係沿存在於樹脂基材20之表面附近之強化纖維材10而形成。存在於樹脂基材20之表面附近之強化纖維材10之長度或大小可無序。因此,形成大小或長度無序之深脆化區域30。如圖3(a)所示,深脆化區域30沿強化纖維材10之外周朝深部延伸。深脆化區域30形成於被較淺地填埋於樹脂基材20之表面內之強化纖維材10之附近或正上方,又,可包含沿強化纖維材10之外周凹陷之部分。 由圖3(a)及(b)之比較可知,若去除強化纖維材10之附近之深脆化區域30,則於強化纖維材10之露出部分之附近形成深凹部40。深凹部40係於平面上沿強化纖維材10之露出部分而形成,又,於剖面上以沿強化纖維材10之露出部分之外周朝深部延伸之方式形成。 由圖3(a)可知,根據步驟1,強化纖維材10之表面部分15可被改質。由圖3(b)可知,藉由步驟2亦可去除該改質區域。其結果,可於強化纖維材10之露出部分形成多孔群16。 於若干情形時,樹脂基材20之凸凹面26之算術平均粗糙度Ra為0.2~1.0 μm。於若干情形時,其算術平均粗糙度Ra為0.2 μm或0.3 μm、0.4 μm以上。於若干情形時,算術平均粗糙度Ra為1.0 μm或0.9 μm、0.8 μm以下。算術平均粗糙度Ra之測定係依據NIST標準,並使用美國Zygo公司製造之非接觸三維表面形狀測定裝置Zygo New View 6300(2007年製造)而進行。 由圖3(b)可知,深凹部40具有某程度之深度。於若干情形時,於跨深凹部40之範圍,例如於圖3(b)所示之範圍R5內,算術平均粗糙度Ra為0.3~2.0 μm。於若干情形時,其算術平均粗糙度Ra為0.3 μm或0.4 μm、0.5 μm以上。於若干情形時,其算術平均粗糙度Ra為2.5 μm或2.2 μm、2.1 μm以下。算術平均粗糙度Ra之測定係依據NIST標準,並使用美國Zygo公司製造之非接觸三維表面形狀測定裝置Zygo New View 6300(2007年製造)而進行。 去除深脆化區域30之後,藉由步驟S3於樹脂基材20之表面形成皮膜。於圖4所示之情形時,皮膜為鍍覆皮膜。該鍍覆皮膜係藉由無電鍍覆及電鍍而階段性地形成。即,鍍覆皮膜包含藉由無電鍍覆形成之第1鍍覆層51及藉由電鍍形成之第2鍍覆層52。第1及第2鍍覆層51、52未必限定於相同金屬,可為不同種類之金屬。於若干情形時,第2鍍覆層52之層厚大於第1鍍覆層51之層厚。無電鍍覆及電鍍之各鍍覆形成條件可依據周知之方法決定。 步驟S3後,視需要進行後處理。作為後處理,可列舉退火、研磨等。 藉由本發明之製造法獲得之附有皮膜之樹脂基材具備:包含強化纖維材10且具有強化纖維材10部分地露出之凸凹面之樹脂基材20、及形成於樹脂基材20之凸凹面上之皮膜50。藉由使強化纖維材10自樹脂基材20露出,而提高樹脂基材20之凸凹面之粗糙度,從而可提高皮膜50之密接力。強化纖維材10可無序地存在於樹脂基材20與皮膜50之界面處。其可有助於提昇皮膜50之密接力。於若干情形時,皮膜50將沿於凸凹面中部分地露出之強化纖維材10之外周凹陷之深凹部40填埋。其可有助於提昇皮膜50之密接力。 強化纖維材10可無序地存在於樹脂基材20與皮膜50之界面處。其可引起深凹部40被無序地配置。由圖2(b)可知,強化纖維材10之露出長度各自不同,例如可在1~200 μm之範圍內。再者,技術方案中特定出之附有皮膜之樹脂基材並不受本發明或技術方案中特定出之製造法之任何限定。 業者應理解如下意義:為了提高樹脂基材20之凸凹面之粗糙度或為了形成無序之不同尺寸之深凹部40,有利的是預先將強化纖維材10埋入至樹脂基材20。再者,望注意強化纖維材10之一例之玻璃本身與金屬之密接性較低之方面。於若干情形時,皮膜去除後之樹脂基材20包含10質量%~60質量%之玻璃纖維。於某情形時,皮膜去除後之樹脂基材20包含超過30質量%之玻璃纖維。作為將藉由本發明之製造法獲得之附有皮膜之樹脂基材之皮膜去除之方法,例如可例示將樹脂熔融而將金屬與樹脂分離之方法。 於若干情形時,存在於樹脂基材20與皮膜50之界面附近之強化纖維材10被至少部分地多孔化。例如,關於經多孔化之強化纖維材10,於13 μm×13 μm之範圍內形成1~50個孔。於若干情形時,皮膜50與存在於樹脂基材20與皮膜50之界面附近之強化纖維材10接觸。其可有助於提昇強化纖維材10之一例之玻璃纖維與皮膜50之密接力。 藉由本發明之製造方法製造之附有皮膜之樹脂基材未必限定於此,可為滑動零件。所謂滑動零件,係指一種相互摩擦,換言之一面接觸一面移動之構件。尤其是,對滑動零件要求使皮膜與樹脂基材較強地密接。 藉由本發明之製造方法製造之附有皮膜之樹脂基材可為拉鏈用之滑件95。如圖5所示,滑件係伴隨滑件之移動而將拉鏈99開合之滑動零件。拉鏈99包含左右一對拉鏈鏈布91、設置於各拉鏈鏈布91之對向側緣之拉鏈鏈齒92、設置於拉鏈鏈齒92之前端部之左右一對前止擋93、設置於拉鏈鏈齒92之後端部之左右共通之後止擋94、及滑件95。眾所周知,滑件包含上翼板、下翼板、將上翼板與下翼板利用前端部連結之連結柱、設置於上翼板上之拉片安裝柱、及安裝於拉片安裝柱之拉片955。拉鏈鏈布91係可撓性之底布,可為梭織物或針織物或該等之複合品。關於拉鏈鏈齒92,圖示出環扣鏈齒,但並不限定於此。拉鏈鏈齒92可為樹脂或金屬拉鏈鏈齒。 當滑件95上滑及下滑時,左右之拉鏈鏈齒92分別與滑件,清楚而言,與其上翼板、下翼板、及連結柱接觸,上翼板、下翼板及連結柱與拉鏈鏈齒相互摩擦。若使滑件為金屬製,則能夠確保滑件之充分之機械強度,但滑件會變重。另一方面,若使滑件為樹脂製,則能夠促進滑件之輕量化,但滑件之機械強度會下降。依照本發明之方法,藉由利用皮膜被覆滑件之樹脂基材,能夠提供一種由能夠耐受與拉鏈鏈齒之反覆摩擦之皮膜所被覆之滑件。於藉由無電鍍覆形成皮膜之情形時,於滑件之內部、例如於其上翼板及下翼板之各對向內表面或連結柱之外周面,亦能夠相對均勻地形成皮膜。 [實施例] 於實施例1~3及比較例1~2中,嘗試了對樹脂基材形成鍍覆皮膜。於實施例1中,使用直徑13 μm×長度L200 μm之玻璃纖維分散而成之聚醯胺(PA,Polyamide)樹脂基材作為被鍍覆材。於聚醯胺樹脂基材中分散有60質量%之玻璃纖維。用於被鍍覆材之表面處理之表面處理氣體係氟氣與氮氣之混合氣體。混合體積比為氟:氮氣=15體積%:85體積%。當進行步驟S1時,於反應容器中,於25℃、30分鐘之條件下,將被鍍覆材暴露於表面處理氣體中。繼而,將步驟1後之被鍍覆材於30℃之鹽酸浴中浸漬10分鐘。鹽酸浴中,每1 L之鹽酸水溶液包含200 mL之鹽酸。其後,藉由使用50 g/L之氫氧化鈉水溶液之鹼脫脂步驟,將被鍍覆材之表面洗淨。其次,對被鍍覆材實施無電解鍍銅,繼而實施電鍍。當進行無電解鍍銅時,首先,將被鍍覆材於50℃之界面活性劑浴中浸漬3分鐘。繼而,為了賦予Pd觸媒而將被鍍覆材於存在Pd-Sn錯合物之鹽酸為35體積%之40℃鹽酸水溶液浴中浸漬3分鐘。繼而,將作為還原劑之硼酸投入至鹽酸浴,於40℃之條件下直接放置1分鐘。繼而,將被鍍覆材浸漬於包含福馬林銅之50℃之無電解浴中7分鐘。繼而,將被鍍覆材浸漬於包含硫酸銅之25℃之電鍍浴中,通電450分鐘而形成電鍍。 實施例2係使用聚縮醛(POM,Polyoxymethylene(聚甲醛))作為樹脂基材之材料。聚縮醛樹脂基材中所分散之玻璃纖維之質量%為30質量%。表面處理氣體所包含之氟氣之體積%為5體積%。又,將被鍍覆材暴露於表面處理氣體中之時間為20分鐘。此外與實施例1相同。 實施例3係使用聚丙烯(PP,Polypropylene)作為樹脂基材之材料。聚丙烯樹脂基材中所分散之玻璃纖維之質量%為10質量%。表面處理氣體所包含之氟氣之體積%為2體積%。又,將被鍍覆材暴露於表面處理氣體中之時間為10分鐘。此外與實施例1相同。 如表1所示,於實施例1~3中,可獲得鍍覆皮膜對樹脂基材之充分剝離強度。剝離強度係依照JIS C5012機械性能試驗進行測定。具體而言,使用島津製作所公司製造之製品名AGS-H對鍍覆皮膜之剝離強度進行測定。 [表1]
於比較例1中,使用聚縮醛(POM)作為樹脂基材之材料。於比較例1中,使用不包含強化纖維材之樹脂基材作為被鍍覆材。表面處理氣體之組成及條件與實施例2相同。以與實施例2相同之方式將被鍍覆材暴露於包含氟氣之表面處理氣體中並浸漬於鹽酸浴中,而實施無電解鍍銅。與實施例1~3不同,於比較例1中未析出鍍銅皮膜。 與比較例1不同,於比較例2中,不使暴露於包含氟氣之表面處理氣體中之被鍍覆材浸漬於鹽酸浴中,而實施無電解鍍銅。其他與比較例1相同。與比較例1相同,於比較例2中亦未析出鍍銅皮膜。 與實施例1不同,於參考例1中,不使暴露於包含氟氣之表面處理氣體中之被鍍覆材浸漬於鹽酸浴中,而實施無電解鍍銅。其他與實施例1相同。參考例1儘管除有無浸漬於鹽酸浴中以外與實施例1之條件均相同,但結果低於實施例1~3之剝離強度。此情況證實了鹽酸浴之浸漬之重要性。 參照圖6至圖11,對使用樹脂製滑件作為被鍍覆材之例進行說明。再者,於樹脂製滑件上形成有鍍覆皮膜之步驟及條件與實施例1相同。 圖7之(A-1)之SEM照片表示圖6之A-1之箭頭所示之部位,即位於在左右方向上遠離連結柱953之位置之上翼板951之上表面之局部剖面。圖7之(A-2)之SEM照片表示圖6之A-2之箭頭所示之部位,即位於在左右方向上遠離連結柱953之位置之上翼板951之對向內表面之局部剖面。上翼板951之對向內表面係與下翼板952相對之上翼板951之面。 圖8及圖9所示之(B-1)~(C-5)之SEM照片亦表示圖6之B-1~C-5之箭頭所示之部位之局部剖面。(B-1)及(B-2)之SEM照片表示在左右方向上,中心隔著拉片安裝柱954而與(A-1)及(A-2)之SEM照片獲取位置相反處之上翼板951之上表面及對向內表面的局部剖面。(C-1)之SEM照片表示位於連結柱953之正下方之下翼板之下表面之局部剖面。(C-2)之SEM照片表示位於在左右方向上遠離連結柱953之位置之下翼板952之下表面之局部剖面。(C-3)之SEM照片表示位於在左右方向上遠離連結柱953之位置之下翼板952之對向內表面之局部剖面。(C-5)及(C-4)之SEM照片表示在左右方向上,中心隔著連結柱953而與(C-2)及(C-3)之SEM照片獲取位置相反處之下翼板952之下表面及對向內表面的局部剖面。 如圖7至圖9所示,厚度具有均勻性之鍍覆皮膜50係於滑件之樹脂基材上形成。如圖7至圖9所示,樹脂基材20之整個表面被粗面化而形成凸凹面。如(B-2)之SEM照片所清楚地表示般,鍍覆皮膜50與樹脂基材20之表面所露出之玻璃纖維之露出部分接觸,又,將該露出部分被覆。可見位於該玻璃纖維之露出部附近之深凹部填充有鍍銅皮膜。該深凹部係去除樹脂基材20之脆化區域而形成者。利用P1、P2明示地表示由鍍銅皮膜填充之沿強化纖維材10之外周凹陷之深凹部之位置。如(C-5)之SEM照片所示,亦可為未露出玻璃纖維之區域。藉由步驟S2去除由步驟S1形成之脆化區域之後,於步驟S3中形成鍍覆皮膜。因此,於脆化區域與其下部之未脆化之區域之交界處不會產生剝離,而於未露出玻璃纖維之區域亦提昇鍍覆皮膜之密接性。 圖10(a)描繪脆化區域形成前之滑件之樹脂基體之表面。圖10(b)及圖10(c)描繪脆化區域形成及去除後之滑件之樹脂基體之表面。由圖10可知,無序地存在於滑件之樹脂基材之表面上之玻璃纖維之附近被包含氟氣之表面處理氣體集中地蝕刻,從而於玻璃纖維之附近集中地形成深凹部。又,由圖10(c)可知,玻璃纖維之露出部分被多孔化。 圖11之SEM照片表示鍍銅皮膜50形成後之滑件之樹脂基材之剖面。可見深凹部被鍍銅皮膜50填充。利用P3明示地表示由鍍銅皮膜填充之沿強化纖維材10之外周凹陷之深凹部之位置。 於實施例4、比較例3及比較例4中,於樹脂基材形成有塗裝皮膜。於實施例4中,使用直徑13 μm×長度 L200 μm之玻璃纖維分散而成之聚醯胺(PA)樹脂基材作為被塗裝材。於聚醯胺樹脂基材分散有60質量%之玻璃纖維。用於被塗裝材之表面處理之表面處理氣體為氟氣與氮氣之混合氣體。混合體積比為氟:氮氣=15體積%:85體積%。當進行步驟S1時,於反應容器中,於25℃、30分鐘之條件下,將被塗裝材暴露於表面處理氣體中。繼而,將步驟1後之被塗裝材於30℃之鹽酸浴中浸漬10分鐘。鹽酸浴中,每1 L之鹽酸水溶液包含200 mL之鹽酸。其後,藉由使用50 g/L之氫氧化鈉水溶液之鹼脫脂步驟,將被塗裝材之表面洗淨。其次,使用塗料塗裝被塗裝材,繼而,使其乾燥。所使用之塗料係無機顏料分散於樹脂中而成者。 於比較例3中,使用與實施例4相同之被塗裝材,但不進行使用表面處理氣體之表面處理或浸漬於鹽酸中之操作。於比較例4中,使用不包含強化纖維材之樹脂基材作為被塗裝材,與比較例3同樣地,不進行使用表面處理氣體之表面處理或浸漬於鹽酸中之操作。 [表2]
塗裝皮膜自被塗裝材剝離之剝離強度係按照JIS K 5600-5-7進行測定。即,藉由拉脫法對塗裝皮膜自被塗裝材剝離之剝離強度進行測定。由實施例4與比較例3之比較可知,藉由表面處理及浸漬於鹽酸中,而剝離強度顯著提高。 若立足於上述教導,則業者能夠對各實施形態施加各種變更。申請專利範圍中所加入之符號係用於參考,並非為了限定解釋申請專利範圍而參照者。質量%可換用重量%。強化纖維材之剖面形狀並不限定於圓形或橢圓,可為三角形、四角形等多角形或星形。
10‧‧‧強化纖維材 15‧‧‧強化纖維材之表面部分 16‧‧‧多孔群 20‧‧‧樹脂基材 25‧‧‧脆化區域 26‧‧‧凸凹面 30‧‧‧深脆化區域 40‧‧‧深凹部 50‧‧‧鍍覆皮膜 51‧‧‧第1鍍覆層 52‧‧‧第2鍍覆層 91‧‧‧拉鏈鏈布 92‧‧‧拉鏈鏈齒 93‧‧‧前止擋 94‧‧‧後止擋 95‧‧‧滑件 99‧‧‧拉鏈 951‧‧‧上翼板 952‧‧‧下翼板 953‧‧‧連結柱 954‧‧‧拉片安裝柱 955‧‧‧拉片 P1‧‧‧位置 P2‧‧‧位置 P3‧‧‧位置 R5‧‧‧範圍
圖1係本發明之例示形態之附有皮膜之樹脂基材之製造方法、及皮膜形成方法之概略流程圖。 圖2(a)係樹脂基材之表面之概略模式圖。圖2(b)係形成有脆化區域之樹脂基材之表面之概略模式圖。 圖3(a)係形成有脆化區域之樹脂基材之概略局部剖面模式圖,模式性地表示沿圖2(b)之III(a)-III(a)之概略剖面。圖3(b)係去除脆化區域之後之樹脂基材之概略局部剖面模式圖。 圖4(a)係利用無電鍍覆形成有鍍覆皮膜之樹脂基材之概略局部剖面模式圖。圖4(b)係追加利用電鍍形成有鍍覆皮膜之樹脂基材之概略局部剖面模式圖。 圖5係本發明之例示形態之拉鏈之概略前視模式圖。 圖6係實施例1之滑件之概略圖,表示圖7至圖9所示之局部剖面圖像之獲取位置。 圖7係表示圖6之滑件之A-1及A-2之位置處之局部剖面圖像。 圖8係表示圖6之滑件之B-1、B-2、C-1及C-2之位置處之局部剖面圖像。 圖9係表示圖6之滑件之C-3、C-4及C-5之位置處之局部剖面圖像。 圖10係表示實施例1之鍍覆皮膜形成前之滑件之表面之圖像。圖10(a)描繪脆化區域形成前之滑件之樹脂基體之表面。圖10(b)及圖10(c)描繪脆化區域形成及去除後之滑件之樹脂基體之表面。 圖11係表示實施例1之鍍覆皮膜形成後之滑件之局部剖面之圖像。圖11(b)係圖11(a)之放大版。
Claims (19)
- 一種附有皮膜之樹脂基材之製造方法,其包含: 對包含強化纖維材(10)之樹脂基材(20)供給至少包含氟氣之表面處理氣體,而於上述樹脂基材(20)之表面形成脆化區域,將存在於上述樹脂基材(20)之表面附近之上述強化纖維材(10)之至少一部分改質之步驟; 去除至少上述脆化區域而於上述樹脂基材(20)上形成凸凹面,於上述凸凹面中使上述強化纖維材(10)至少部分地露出之步驟;及 於上述樹脂基材(20)之凸凹面上形成皮膜(50)之步驟。
- 如請求項1之附有皮膜之樹脂基材之製造方法,其中藉由去除上述脆化區域,而沿於上述凸凹面中部分地露出之上述強化纖維材(10)之外周形成凹陷之深凹部(40),上述深凹部(40)被上述皮膜(50)填埋。
- 如請求項1或2之附有皮膜之樹脂基材之製造方法,其中藉由上述表面處理氣體之作用,而使上述強化纖維材(10)至少部分地多孔化。
- 如請求項1或2之附有皮膜之樹脂基材之製造方法,其中藉由將形成有上述脆化區域之上述樹脂基材(20)浸漬於酸性溶液中,而去除上述脆化區域。
- 如請求項4之附有皮膜之樹脂基材之製造方法,其中上述酸性溶液包含選自由鹽酸、硫酸及硝酸所組成之群中之1種以上。
- 如請求項1或2之附有皮膜之樹脂基材之製造方法,其中上述樹脂基材(20)包含玻璃纖維作為上述強化纖維材(10),且 上述樹脂基材(20)包含10質量%~60質量%之玻璃纖維。
- 如請求項6之附有皮膜之樹脂基材之製造方法,其中上述樹脂基材(20)包含超過30質量%之玻璃纖維。
- 如請求項1或2之附有皮膜之樹脂基材之製造方法,其中上述皮膜(50)為鍍覆皮膜或塗裝皮膜。
- 如請求項1或2之附有皮膜之樹脂基材之製造方法,其中上述附有皮膜之樹脂基材為滑動零件。
- 如請求項9之附有皮膜之樹脂基材之製造方法,其中上述附有皮膜之樹脂基材為拉鏈用之滑件(95)。
- 一種附有皮膜之樹脂基材,其具備: 包含強化纖維材(10)且具有上述強化纖維材(10)部分地露出之凸凹面之樹脂基材(20);及 形成於上述樹脂基材(20)之上述凸凹面上之皮膜(50)。
- 如請求項11之附有皮膜之樹脂基材,其中上述皮膜(50)將沿於上述凸凹面中部分地露出之上述強化纖維材(10)之外周凹陷之深凹部(40)填埋。
- 如請求項11或12之附有皮膜之樹脂基材,其中上述樹脂基材(20)包含玻璃纖維作為上述強化纖維材(10),且 上述樹脂基材(20)包含10質量%~60質量%之玻璃纖維。
- 如請求項13之附有皮膜之樹脂基材,其中上述樹脂基材(20)包含超過30質量%之玻璃纖維。
- 如請求項11或12之附有皮膜之樹脂基材,其中存在於上述樹脂基材(20)與上述皮膜(50)之界面附近之上述強化纖維材(10)被至少部分地多孔化。
- 如請求項11或12之附有皮膜之樹脂基材,其中上述皮膜(50)為金屬皮膜或樹脂皮膜。
- 如請求項11或12之附有皮膜之樹脂基材,其中上述附有皮膜之樹脂基材為滑動零件。
- 如請求項17之附有皮膜之樹脂基材,其中上述附有皮膜之樹脂基材為拉鏈用之滑件(95)。
- 一種皮膜形成方法,其包含: 對包含強化纖維材(10)之樹脂基材(20)供給至少包含氟氣之表面處理氣體,而於上述樹脂基材(20)之表面形成脆化區域,將存在於上述樹脂基材(20)之表面附近之上述強化纖維材(10)之至少一部分改質之步驟; 去除至少上述脆化區域而於上述樹脂基材(20)形成凸凹面,於上述凸凹面中使上述強化纖維材(10)至少部分地露出之步驟;及 於上述樹脂基材(20)之凸凹面上形成皮膜(50)之步驟。
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US20190091721A1 (en) | 2019-03-28 |
TWI627207B (zh) | 2018-06-21 |
JP6638064B2 (ja) | 2020-01-29 |
WO2017203668A1 (ja) | 2017-11-30 |
JPWO2017203767A1 (ja) | 2019-01-10 |
CN109072439B (zh) | 2021-04-06 |
WO2017203767A1 (ja) | 2017-11-30 |
US11174362B2 (en) | 2021-11-16 |
EP3467147A4 (en) | 2020-01-29 |
CN109072439A (zh) | 2018-12-21 |
EP3467147A1 (en) | 2019-04-10 |
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