JP2009262477A - Weather-resistant steel material - Google Patents
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本発明は、各種建築物等に用いられる耐候性鋼材を用いる分野に関わるものであり、環境負荷の少ない、外観に優れた耐候性鋼材に関するものである。 The present invention relates to a field using weathering steel materials used in various buildings and the like, and relates to a weathering steel material having a small environmental load and an excellent appearance.
耐候性鋼は、Cu、Ni、Cr、P、Mo等の元素が少量含有された低合金鋼であり、大気中で腐食する過程で、耐候性鋼表面に腐食要因の透過を抑制する保護性の強い錆層が形成される。保護性の錆が形成された耐候性鋼の腐食速度は著しく低下する特徴を有しているため、近年は、構造物のライフサイクルコストを抑える材料として注目されている。 Weatherproof steel is a low alloy steel containing a small amount of elements such as Cu, Ni, Cr, P, Mo, etc., and protects the surface of the weatherproof steel from permeating corrosion factors in the process of corrosive in the atmosphere. A strong rust layer is formed. Since the corrosion rate of the weather-resistant steel on which protective rust is formed has a characteristic that the corrosion rate is remarkably reduced, in recent years, it has attracted attention as a material that suppresses the life cycle cost of the structure.
耐候性鋼は、橋梁や鉄塔の構造物や建築部材として用いられるが、保護性錆が生成するまでの間に生じる流れ錆が、周囲を汚染する問題があった。また、外観性に優れた保護性錆が生成するまでの時間がかかる。そこで、耐鋼性鋼の表面に錆安定化処理と称される表面処理を行い、流れ錆を抑制する技術が開示されている。 Weather-resistant steel is used as a structure of a bridge or a steel tower or a building member, but there is a problem that the flow rust generated before protective rust is generated contaminates the surroundings. Moreover, it takes time until protective rust having excellent appearance is produced. Then, the technique which performs the surface treatment called a rust stabilization process on the surface of steel-resistant steel, and suppresses flow rust is disclosed.
例えば特許文献1では、鉄系顔料、リン酸、Pb、Ni、Cu、P、Zn、Crの単体もしくは化合物1種以上を含有するポリビニルブチラール樹脂及びポリビニルブチラール樹脂と相溶する樹脂を耐候性鋼の表面に適用する技術が提案されており、これにより初期の流れ錆が無処理の暴露材の1/10程度に低減されている。 For example, in Patent Document 1, a weather resistant steel includes a polyvinyl butyral resin containing a simple substance or one or more compounds of iron pigment, phosphoric acid, Pb, Ni, Cu, P, Zn, and Cr, and a resin compatible with the polyvinyl butyral resin. The technique applied to the surface of this is proposed, and the initial flow rust is reduced to about 1/10 of the untreated exposed material.
また、例えば特許文献2には、鋼材の表面に、Cu、Ni、Cr、Al、Mo、Pの化合物から選択された少なくとも1種以上を金属換算で0.03〜15質量%と、有機樹脂と、光増感剤と、顔料と、塗料調製剤とを含有する処理皮膜を1〜100μmの膜厚で形成してなることを特徴とする錆安定化表面処理鋼材が提案されている。 Moreover, for example, in Patent Document 2, at least one selected from compounds of Cu, Ni, Cr, Al, Mo, and P on the surface of a steel material is 0.03 to 15% by mass in terms of metal, and an organic resin. In addition, a rust-stabilized surface-treated steel material is proposed in which a treatment film containing a photosensitizer, a pigment, and a paint preparation agent is formed with a film thickness of 1 to 100 μm.
しかしながら、上記鋼材は、適用されて10年程度から十数年以上の実績があるが、保護性の錆に変わるまでの期間が数年から数十年と比較的長期であり、外観が錆色に調整されているものの、皮膜が消失する間に鋼材表面がまだらとなる事が多く、外観が損なわれる事例が多い。さらに、上記をはじめとする表面処理は、揮発性の有機溶剤を含有する成分であり、また、良好な保護性の錆を促進形成させるためのCu、Cr、NiやMoの化合物などの環境に好ましくない重金属が使用されている処理がほとんどである。 However, the above steel materials have been used for about 10 years to more than a dozen years, but the period until they change to protective rust is relatively long, from several years to several decades, and the appearance is rust-colored. Although it is adjusted, the steel surface often becomes mottled while the film disappears, and the appearance is often lost. Furthermore, the surface treatment including the above is a component containing a volatile organic solvent, and in an environment such as a compound of Cu, Cr, Ni or Mo for promoting and forming good protective rust. Most treatments use undesirable heavy metals.
従って、本発明の目的は、揮発性物質や重金属元素などの環境負荷の高い物質を用いることなく、1年以上の長期の期間を経た錆色と同様の外観を有し、景観に優れた耐候性鋼材を提供することにある。 Accordingly, the object of the present invention is to provide an external appearance similar to a rust color after a long period of one year or more without using a substance having a high environmental load such as a volatile substance or a heavy metal element, and has an excellent weather resistance in a landscape. To provide steel.
耐候性鋼の長期暴露で形成される錆は、鋼材側(下層)から順に、三四酸化鉄およびX線回折的に非晶質な錆が位置し、その上層に位置する酸化水酸化鉄で構成されている。上層の錆が、下層の錆への酸素不足を招き、その結果、X線回折的に非晶質な錆や三四酸化鉄が生成され、鋼材の成分と相まって、ゆっくりであるが長期的な保護性と落ち着いた錆び外観を発現するものと推測される。 The rust formed by long-term exposure of weathering steel is iron tetrahydroxide and X-ray diffraction amorphous rust in order from the steel side (lower layer), and iron oxide hydroxide located in the upper layer. It is configured. The upper layer rust causes oxygen shortage to the lower layer rust, and as a result, X-ray diffraction-amorphous rust and iron tetroxide are generated, combined with the components of the steel material, but slowly but long-term. It is presumed to exhibit a protective property and a calm rusted appearance.
本発明者らは、錆安定化、保護性錆の促進を目的とするのではなく、景観性を重視する観点から検討した結果、長期に生成される耐候性鋼本来の錆生成を妨げることなく、初期から長期暴露材の外観を実現する鉄顔料およびそれらを鋼材表面に保持する耐候性鋼材を、環境に負荷をかける重金属、揮発性の有機溶剤などを用いることなく実現可能であることに想到し、本発明を完成した。 The present inventors did not aim at rust stabilization and promotion of protective rust, but as a result of examining from the viewpoint of emphasizing landscape, without disturbing the original rust formation of weathering steel produced over a long period of time The idea is that iron pigments that realize the appearance of long-term exposed materials from the beginning and the weather-resistant steel materials that hold them on the steel surface can be realized without using heavy metals or volatile organic solvents that place a burden on the environment. The present invention has been completed.
即ち、本発明の要旨は、以下の通りである。
(1) 鋼材表面に、Fe2O3及びFe3O4からなる鉄顔料が分散しており有機チタンキレートで架橋されたポリビニルアルコール皮膜を有し、前記ポリビニルアルコール皮膜の厚みは、10〜30μmであり、前記鉄顔料は、前記ポリビニルアルコール皮膜に対して、30〜80質量%含有されていることを特徴とする、耐候性鋼材。
(2) 前記鉄顔料におけるFe3O4の比率が質量比で70〜95%であることを特徴とする、(1)記載の耐候性鋼材。
(3) 前記ポリビニルアルコール皮膜は、タンニン酸又は没食子酸を更に含有し、前記タンニン酸又は没食子酸の含有量が、ポリビニルアルコール樹脂に対して25質量%以下であることを特徴とする、(1)または(2)に記載の耐候性鋼材。
(4) 前記ポリビニルアルコール皮膜中の有機チタンキレートが、乳酸又はトリエタノールアミンを配位子とする水溶性のチタンキレートであり、前記ポリビニルアルコール質量に対するチタンの含有量が、0.5質量%〜3質量%であることを特徴とする、(1)〜(3)のいずれかに記載の耐候性鋼材。
(5) 前記皮膜が錆面に形成されていることを特徴とする、(1)〜(4)いずれかに記載の耐候性鋼材。
That is, the gist of the present invention is as follows.
(1) An iron pigment composed of Fe 2 O 3 and Fe 3 O 4 is dispersed on the surface of a steel material and has a polyvinyl alcohol film crosslinked with an organic titanium chelate, and the polyvinyl alcohol film has a thickness of 10 to 30 μm. And the iron pigment is contained in an amount of 30 to 80% by mass with respect to the polyvinyl alcohol film.
(2) The weather resistant steel material according to (1), wherein the ratio of Fe 3 O 4 in the iron pigment is 70 to 95% by mass ratio.
(3) The polyvinyl alcohol film further contains tannic acid or gallic acid, and the content of the tannic acid or gallic acid is 25% by mass or less based on the polyvinyl alcohol resin. ) Or the weather resistant steel material according to (2).
(4) The organic titanium chelate in the polyvinyl alcohol film is a water-soluble titanium chelate having lactic acid or triethanolamine as a ligand, and the content of titanium with respect to the mass of the polyvinyl alcohol is 0.5% by mass to 0.5% by mass. The weather resistant steel material according to any one of (1) to (3), characterized in that the content is 3% by mass.
(5) The weather resistant steel material according to any one of (1) to (4), wherein the film is formed on a rust surface.
本発明に係る表面処理耐候性鋼材は、処理時の環境負荷を低減できると共に、1年以上の長期の期間を経た錆色と同様の外観を有するため、従来の表面処理耐候性鋼材と異なる用途、例えば景観や意匠性を求められる建築材や構造物に広く利用できる。そのため、本発明に係る耐候性鋼材は、産業価値を高くするものである。 The surface-treated weathering steel according to the present invention can reduce the environmental load during processing and has an appearance similar to a rust color after a long period of one year or more, and therefore, uses different from conventional surface-treated weathering steel, For example, it can be widely used for building materials and structures that require landscape and design. Therefore, the weathering steel material according to the present invention increases the industrial value.
以下に、本発明の好適な実施の形態について詳細に説明する。 Hereinafter, preferred embodiments of the present invention will be described in detail.
本発明の鋼材は、鋼材表面に、ポリビニルアルコールと、Fe2O3及びFe3O4からなる鉄顔料と、架橋剤と、水と、を含む処理剤を塗布乾燥させることで、皮膜が形成される。 The steel material of the present invention forms a film on the steel material surface by applying and drying a treatment agent containing polyvinyl alcohol, an iron pigment composed of Fe 2 O 3 and Fe 3 O 4 , a crosslinking agent, and water. Is done.
処理剤にポリビニルアルコールを用いる理由としては、ポリビニルアルコールは、生理的に不活性(無害)であり、水を溶媒とするので、有機溶剤を使用しない処理液が作製でき、乾燥後は鉄顔料のバインダーとして皮膜を形成するためである。 The reason why polyvinyl alcohol is used as a treatment agent is that polyvinyl alcohol is physiologically inactive (harmless) and uses water as a solvent, so that a treatment liquid that does not use an organic solvent can be prepared. This is because a film is formed as a binder.
ポリビニルアルコールの溶媒は、水が基本であるが、乾燥速度の調整などにアルコール系の溶媒を若干添加してもかまわない。 The solvent for polyvinyl alcohol is basically water, but a slight amount of alcohol solvent may be added to adjust the drying speed.
ポリビニルアルコールの分子繰り返し数は、例えば、500〜2000の物が入手しやすく、作業性に適した粘性を有しており、けん化度は、例えば、78%から90%の部分けん化度のものが、本発明に適している。 Polyvinyl alcohol having a molecular repeat number of, for example, 500 to 2000 is easily available, has a viscosity suitable for workability, and has a saponification degree of 78% to 90%, for example. Suitable for the present invention.
ポリビニルアルコールの濃度は、例えば、5質量%〜15質量%になるように温水に溶解する。 The density | concentration of polyvinyl alcohol melt | dissolves in warm water so that it may become 5 mass%-15 mass%, for example.
さらに、ポリビニルアルコールは、水溶性であるゆえに、乾燥後の不溶化のため架橋剤が添加される。 Furthermore, since polyvinyl alcohol is water-soluble, a crosslinking agent is added for insolubilization after drying.
ポリビニルアルコールに添加される架橋剤は、ジフェニルメタンジイソシアネート等のイソシアネート基を有する化合物も可能であるが、イソシアネートは水とも反応するため、塗膜の発泡や、架橋反応のコントロールが困難であるといった問題がある。 The cross-linking agent added to the polyvinyl alcohol can be a compound having an isocyanate group such as diphenylmethane diisocyanate, but since the isocyanate also reacts with water, there is a problem that it is difficult to control the foaming of the coating film and the cross-linking reaction. is there.
それに対して、水溶性の有機チタンキレートを架橋剤として添加した場合には、処理液の使用可能な時間も長く、また、架橋反応の制御が容易であり、皮膜劣化を考慮した場合の適正な架橋割合を容易に得ることができる。 In contrast, when a water-soluble organotitanium chelate is added as a crosslinking agent, the treatment solution can be used for a long time, and the crosslinking reaction is easy to control. A crosslinking ratio can be easily obtained.
有機チタンキレートとしては、例えば、乳酸やトリエタノールアミンなどを配位子とする水溶性のチタンキレートが良好である。その添加量は、ポリビニルアルコール質量に対するTiの含有量として、例えば、0.5質量%〜3質量%が好ましい。0.5質量%未満ではポリビニルアルコールの不溶化が不十分であり、3質量%を超えて添加しても不溶化割合は飽和するため、好ましくない。 As the organic titanium chelate, for example, a water-soluble titanium chelate having lactic acid or triethanolamine as a ligand is preferable. The addition amount is preferably 0.5% by mass to 3% by mass, for example, as the content of Ti with respect to the mass of polyvinyl alcohol. If it is less than 0.5% by mass, insolubilization of polyvinyl alcohol is insufficient, and even if it is added in excess of 3% by mass, the insolubilization ratio is saturated, which is not preferable.
上記処理液に含有させる鉄顔料の量は、Fe3O4及びFe2O3を、乾燥皮膜質量に対し合計量として例えば30質量%〜80質量%となるように分散させる。30質量%未満では鋼材面の色を隠蔽するには不十分であり、80質量%を超えると皮膜が脆くなるからである。他の酸化水酸化鉄などは用いなくても良い。 The amount of the iron pigment contained in the treatment liquid is such that Fe 3 O 4 and Fe 2 O 3 are dispersed in a total amount of, for example, 30% by mass to 80% by mass with respect to the dry film mass. If it is less than 30% by mass, it is insufficient to conceal the color of the steel surface, and if it exceeds 80% by mass, the coating becomes brittle. Other iron oxide hydroxides may not be used.
鉄顔料の組成は、鉄顔料あたりのFe3O4として、例えば、70質量%〜95質量%が好ましい。さらに好ましくは、鉄顔料あたりのFe3O4の含有量は、80質量%〜85質量%である。長期間暴露された耐候性鋼材外観と比較して、Fe3O4が70質量%未満では外観の赤みが過剰となり(JIS Z8730 の色度a*が長期間暴露された耐候性鋼の1.7に対し4超となり)好ましくなく、95質量%を超えると黒くなりすぎる(JIS Z8730 の色度a*、b*が長期間暴露された耐候性鋼のa*:1.7、b*:4.3に対し、a*,b*ともほぼ0になる)ため好ましくないからである。 The composition of the iron pigment is preferably, for example, 70% by mass to 95% by mass as Fe 3 O 4 per iron pigment. More preferably, the content of Fe 3 O 4 per iron pigment is 80% by mass to 85% by mass. Compared with the appearance of weathering steel exposed for a long period of time, when Fe 3 O 4 is less than 70% by mass, redness of the appearance becomes excessive (the chromaticity a * of JIS Z8730 is 1. Unfavorable, exceeding 95% by mass and becoming too black (a * : 1.7, b * of weather resistant steel exposed to chromaticity a * , b * of JIS Z8730 for a long period of time ) : This is because a * and b * are almost 0 as compared to 4.3).
さらに、処理剤にタンニン酸や没食子酸を添加してもよい。これにより、ポリビニルアルコール皮膜の鋼材面への密着性を向上させることができる。その場合の添加量は、タンニン酸や没食子酸いずれも、ポリビニルアルコール樹脂に対して例えば25質量%以下とする。25質量%を超えると、それらと鉄との反応生成物が鋼材表面を広く覆うため、自然に形成されるべき保護性錆の生成を阻害するからである。 Further, tannic acid or gallic acid may be added to the treatment agent. Thereby, the adhesiveness to the steel material surface of a polyvinyl alcohol membrane | film | coat can be improved. In this case, the tannic acid or gallic acid is added in an amount of, for example, 25% by mass or less with respect to the polyvinyl alcohol resin. This is because when the amount exceeds 25% by mass, the reaction product of iron and iron covers the surface of the steel material widely, thereby inhibiting the formation of protective rust that should be formed naturally.
鋼材表面の安定錆生成を促進させるために、更にCu、Ni、Cr、MoなどのFe以外の金属イオンを加えることでも本発明の目的を達成することができるが、環境負荷を考慮すると、用いないほうが良い。 In order to promote stable rust formation on the steel surface, the object of the present invention can also be achieved by adding metal ions other than Fe, such as Cu, Ni, Cr, Mo, etc. It is better not to.
本発明に係る表面処理耐候性鋼材は、上記成分を含む処理剤を鋼材表面に塗布し得られるが、処理剤塗布の前に、鋼材表面のミルスケールや脆い錆を除去しておく必要がある。ミルスケールは、ショットブラストやグリットブラストまたはサンドブラストによって除去すればよい。また、脆い錆の除去は、ワイヤブラシなどを用いて行えばよい。また、錆びた鋼材については、ブラスト処理後、人為的に水をかけて乾燥し、生じた錆のうち表面の浮き錆のみを除去し、これに処理を行うことでも可能である。 The surface-treated weathering steel material according to the present invention can be obtained by applying a treatment agent containing the above components to the steel material surface, but before applying the treatment agent, it is necessary to remove the mill scale and brittle rust on the steel material surface. . The mill scale may be removed by shot blasting, grit blasting or sand blasting. The brittle rust can be removed using a wire brush or the like. Moreover, about the rusted steel material, it is also possible to dry by applying water artificially after blasting, removing only floating rust on the surface of the generated rust, and performing the treatment on this.
鋼材の表面に処理液を塗布する方法は、例えば、スプレー、ローラー、刷毛塗りなどいずれの方法でもかまわない。塗布された処理液は、常温もしくは200℃までの加熱によって乾燥され、成膜される。 The method of applying the treatment liquid to the surface of the steel material may be any method such as spraying, rollering, or brushing. The applied treatment liquid is dried by heating to room temperature or up to 200 ° C. to form a film.
乾燥後の皮膜の厚みは、10〜30μmにすることが必要である。10μm未満では鋼材表面の隠蔽性に劣り好ましくない。また、30μmを超えると乾燥に時間がかかり生産性が落ちるため好ましくなく、また、長期使用時において皮膜の劣化、消失過程での外観変化が目立つようになるため好ましくない。 The thickness of the film after drying needs to be 10 to 30 μm. If it is less than 10 μm, the concealability of the steel surface is inferior, which is not preferable. On the other hand, if it exceeds 30 μm, it takes time to dry and productivity is lowered, which is not preferable, and deterioration of the film during long-term use and change in appearance in the disappearance process become conspicuous.
本発明に用いられる鋼材の組成は特に限定されないが、最終的な形態として無処理の状態で用いることが可能なJISのSMA、SPA−H、SPA−C、ニッケル系の耐候性鋼などが用いられる。 Although the composition of the steel material used in the present invention is not particularly limited, JIS SMA, SPA-H, SPA-C, nickel-based weathering steel, etc. that can be used in an untreated state as the final form are used. It is done.
以下、本発明を実施例に基づいて、具体的に説明する。 Hereinafter, the present invention will be specifically described based on examples.
実施例1〜38、及び比較例1〜11に示す水準は、耐候性鋼材(JIS SMA 400AW)試験片(150mm×75mm×5mm)のミルスケール付き鋼材に、ブラスト処理によりミルスケールを除去したものに対して、表1に示す組成の処理液を所定の膜厚で塗布し、供試材とした。 The levels shown in Examples 1 to 38 and Comparative Examples 1 to 11 are those obtained by removing the mill scale by blasting a steel material with a mill scale of a weather resistant steel (JIS SMA 400AW) test piece (150 mm × 75 mm × 5 mm). On the other hand, a treatment liquid having the composition shown in Table 1 was applied at a predetermined film thickness to obtain a test material.
実施例39〜61、及び比較例12〜14に示す水準は、耐候性鋼材(JIS SMA 400AW)試験片(150mm×75mm×5mm)のミルスケール付き鋼材に、ブラスト処理を実施しミルスケールを除去した後、その表面に一日1回水散布しつつ、1週間暴露して錆びさせてから、ワイヤブラシケレンし錆を除去した鋼材に、表2に示す組成の処理液を所定の膜厚で塗布し、供試材とした。 The levels shown in Examples 39 to 61 and Comparative Examples 12 to 14 are blasted on a steel material with a mill scale of a weather-resistant steel (JIS SMA 400AW) test piece (150 mm × 75 mm × 5 mm) to remove the mill scale. Then, after spraying water once a day on the surface and exposing it to rust by exposing it for one week, wire brush brushing and removing the rust to the steel material with the composition shown in Table 2 at a predetermined film thickness It applied and it was set as the test material.
比較例10、14としては、ポリビニルブチラール樹脂、リン酸、鉄顔料を主成分で実績のある従来処理に相当する処理(ポリビニルブチラール樹脂47質量%、リン酸5質量%、鉄顔料30質量%、Cr系防錆顔料12質量%、その他体質顔料6質量%をキシレン、ブタノールを主とする溶剤で調整)を用いて供試材とした。 As Comparative Examples 10 and 14, polyvinyl butyral resin, phosphoric acid, iron pigment as a main component and a treatment corresponding to the conventional treatment (polyvinyl butyral resin 47% by mass, phosphoric acid 5% by mass, iron pigment 30% by mass, A Cr-based rust preventive pigment (12% by mass) and other extender pigments (6% by mass) were prepared using xylene and butanol as main solvents.
評価方法は、垂直に暴露した試験材に、0.1質量%の塩化ナトリウム水を毎日散布して、1ヵ月後の外観状況を評価した。 In the evaluation method, 0.1% by mass of sodium chloride water was sprayed on the vertically exposed test material every day to evaluate the appearance after one month.
評価は目視により行い、評価基準としては、◎:変色なし、○:わずかな変色(主として色むら)、△:一部に変色有り(主として黄色の点錆発生)、×:明らかな変色(主として皮膜の消失)の順番で評価し、△以上を合格とした。 Evaluation is performed visually, and evaluation criteria are as follows: ◎: No discoloration, ○: Slight discoloration (mainly uneven color), △: Partial discoloration (mainly yellow spot rust generation), ×: Clear discoloration (mainly Evaluation was made in the order of (disappearance of film), and Δ or more was regarded as acceptable.
表1の試験結果、処理のしていない比較例1はもちろんであるが、比較例1,2が示すように、鉄顔料が多くて樹脂が少ないものであっても、鉄顔料が少なく樹脂が多いものであっても、皮膜の外観変化が大きくなるのが解る。また、比較例4〜9が示すように、従来のままでビニルアルコールに架橋材を添加していないもの、または、添加量が少ないものは、暴露時に塗膜が溶出して良好な錆外観を維持できない。一方、実施例1〜40に示すような架橋剤を適量添加したものは、有機溶剤系の処理で実績の有る従来例である比較例10と同様に、塗膜の消失が軽減または抑制されるのがわかる。 As a result of the test shown in Table 1, not only Comparative Example 1 that was not treated, but Comparative Examples 1 and 2, as shown in FIG. It can be seen that even if there are many, the change in the appearance of the film becomes large. In addition, as Comparative Examples 4 to 9 show that the conventional example in which the crosslinking agent is not added to the vinyl alcohol or the addition amount is small, the coating film is eluted at the time of exposure, and a good rust appearance is obtained. It cannot be maintained. On the other hand, the addition of an appropriate amount of a crosslinking agent as shown in Examples 1 to 40 reduces or suppresses the disappearance of the coating film, as in Comparative Example 10, which is a conventional example with a track record in organic solvent processing. I understand.
錆面に対して、表1と同様の試験を行った結果を表2に示す。表2では、表1のブラスト面よりも若干効果が落ちるが、タンニン酸や没食子酸を添加(実施例47〜56)することにより、添加しないもの(実施例39〜46)よりも効果が改善され、有機溶剤系の処理で実績の有る比較例12よりもむしろ優れているのがわかる。また、皮膜の厚さは、10μm以上あると良好であり、実用的な面から10μ〜30μmあれば良いことが(実施例57〜59)より解る。 Table 2 shows the results of tests similar to Table 1 performed on the rust surface. In Table 2, the effect is slightly lower than the blast surface of Table 1, but the effect is improved by adding tannic acid and gallic acid (Examples 47 to 56) than those not adding (Examples 39 to 46). It can be seen that this is superior to Comparative Example 12, which has a proven record in organic solvent processing. Further, it can be seen from Examples 57 to 59 that the thickness of the film is good when it is 10 μm or more, and that it is sufficient if it is 10 μm to 30 μm from a practical aspect.
色差計を用いて暴露20年した後の鋼材を測定したL*=28.4,a*=1.7,b*=4.3(JIS Z8730)の値と、暴露後1ヵ月後の比較例、実施例で求めたL*,a*,b*と、その色差ΔEを表3に示す。 Comparison of L * = 28.4, a * = 1.7, b * = 4.3 (JIS Z8730) measured by steel using a color difference meter after 20 years of exposure and 1 month after exposure Table 3 shows L * , a * , b * and the color difference ΔE obtained in Examples and Examples.
実施例では、1ヵ月暴露後において、20年暴露した鋼材とほぼ同じ色、外観を示していることがわかる。 In the Examples, it can be seen that after exposure for one month, it shows almost the same color and appearance as the steel exposed for 20 years.
以上、本発明の好適な実施形態について説明したが、本発明はかかる例に限定されないことは言うまでもない。当業者であれば、特許請求の範囲に記載された範疇内において、各種の変更例または修正例に想到し得ることは明らかであり、それらについても当然に本発明の技術的範囲に属するものと了解される。 As mentioned above, although preferred embodiment of this invention was described, it cannot be overemphasized that this invention is not limited to this example. It will be apparent to those skilled in the art that various changes and modifications can be made within the scope of the claims, and these are naturally within the technical scope of the present invention. Understood.
本発明による長期暴露外観を有する耐候性鋼材は、揮発性物質や重金属などの環境への負荷の高い物質を用いることなく、耐候性鋼本来の景観に優れた外観を短期に用意できることから、意匠性の求められる建築物や土木構造物の鋼材として用いることができる。
The weather-resistant steel material having a long-term exposure appearance according to the present invention can be prepared in a short time with an appearance excellent in the original landscape of the weather-resistant steel without using substances with high environmental impact such as volatile substances and heavy metals. It can be used as a steel material for buildings and civil engineering structures that require high performance.
Claims (5)
前記ポリビニルアルコール皮膜の厚みは、10〜30μmであり、
前記鉄顔料は、前記ポリビニルアルコール皮膜に対して、30〜80質量%含有されていることを特徴とする、耐候性鋼材。 On the steel material surface, an iron pigment composed of Fe 2 O 3 and Fe 3 O 4 is dispersed and has a polyvinyl alcohol film crosslinked with an organic titanium chelate,
The polyvinyl alcohol film has a thickness of 10 to 30 μm,
The weather resistant steel material, wherein the iron pigment is contained in an amount of 30 to 80% by mass with respect to the polyvinyl alcohol film.
前記タンニン酸又は没食子酸の含有量が、ポリビニルアルコール樹脂に対して25質量%以下であることを特徴とする、請求項1または2に記載の耐候性鋼材。 The polyvinyl alcohol film further contains tannic acid or gallic acid,
Content of the said tannic acid or gallic acid is 25 mass% or less with respect to polyvinyl alcohol resin, The weather-resistant steel materials of Claim 1 or 2 characterized by the above-mentioned.
前記ポリビニルアルコールの質量に対するチタンの含有量が、0.5質量%〜3質量%であることを特徴とする請求項1〜3のいずれかに記載の耐候性鋼材。 The organic titanium chelate in the polyvinyl alcohol film is a water-soluble titanium chelate having lactic acid or triethanolamine as a ligand,
Content of titanium with respect to the mass of the said polyvinyl alcohol is 0.5 mass%-3 mass%, The weather-resistant steel materials in any one of Claims 1-3 characterized by the above-mentioned.
The weather-resistant steel material according to any one of claims 1 to 4, wherein the film is formed on a rust surface.
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JP2017066433A (en) * | 2015-09-28 | 2017-04-06 | 新日鐵住金株式会社 | Method of manufacturing anti-weathering steel material |
JP2017067483A (en) * | 2015-09-28 | 2017-04-06 | 新日鐵住金株式会社 | Method for evaluating rusty layer of weathering steel |
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JP2005053059A (en) * | 2003-08-04 | 2005-03-03 | Kobe Steel Ltd | Coating film-treated steel material excellent in flow rust suppressing capacity and stable rust forming agent |
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JP2005053059A (en) * | 2003-08-04 | 2005-03-03 | Kobe Steel Ltd | Coating film-treated steel material excellent in flow rust suppressing capacity and stable rust forming agent |
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JPWO2012128026A1 (en) * | 2011-03-18 | 2014-07-24 | 協立化学産業株式会社 | Water-based metal surface treatment agent for lithium ion secondary batteries |
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JP2017066433A (en) * | 2015-09-28 | 2017-04-06 | 新日鐵住金株式会社 | Method of manufacturing anti-weathering steel material |
JP2017067483A (en) * | 2015-09-28 | 2017-04-06 | 新日鐵住金株式会社 | Method for evaluating rusty layer of weathering steel |
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