稀有金属材料与工程
稀有金屬材料與工程
희유금속재료여공정
RARE METAL MATERIALS AND ENGINEERNG
2008年
z2期
84-86
,共3页
蔡弘华%杨辉%李海洋%李玉亭%李润%许小敏%任祥忠%罗仲宽
蔡弘華%楊輝%李海洋%李玉亭%李潤%許小敏%任祥忠%囉仲寬
채홍화%양휘%리해양%리옥정%리윤%허소민%임상충%라중관
有机-无机复合涂层%溶胶-凝胶%改性二氧化硅%甲基丙烯酸甲酯
有機-無機複閤塗層%溶膠-凝膠%改性二氧化硅%甲基丙烯痠甲酯
유궤-무궤복합도층%용효-응효%개성이양화규%갑기병희산갑지
organic-inorganic hybrids%sol-gel%silica%methyl methacrylate%coating
不饱和C=C双键表面修饰的二氧化硅粒子采用正硅酸乙酯和γ-甲基丙烯酰氧丙基三甲氧基硅烷(KH-570)共水解制备,然后加入甲基丙烯酸甲酯单体和引发剂原位聚合生成PMMA接枝改性二氧化硅溶胶.将该有机-无机复合溶胶旋转涂覆到金属基片(黄铜及不锈钢)上,经90~120℃热处理2 h制备了复合涂层.采用傅立叶变换红外光谱、X-射线衍射、透射电镜表征了涂层结构和形貌,同时用激光光散射、铅笔硬度仪等对溶胶粒径和涂层性能进行了测试.结果表明该方法制备的PMMA-二氧化硅体系在一较宽的浓度范围内都能形成透明的稳定溶胶,接枝改性后的二氧化硅纳米粒子在聚合物中分散均匀,涂层机械强度明显提高,对金属基底具有良好的附着效果.
不飽和C=C雙鍵錶麵脩飾的二氧化硅粒子採用正硅痠乙酯和γ-甲基丙烯酰氧丙基三甲氧基硅烷(KH-570)共水解製備,然後加入甲基丙烯痠甲酯單體和引髮劑原位聚閤生成PMMA接枝改性二氧化硅溶膠.將該有機-無機複閤溶膠鏇轉塗覆到金屬基片(黃銅及不鏽鋼)上,經90~120℃熱處理2 h製備瞭複閤塗層.採用傅立葉變換紅外光譜、X-射線衍射、透射電鏡錶徵瞭塗層結構和形貌,同時用激光光散射、鉛筆硬度儀等對溶膠粒徑和塗層性能進行瞭測試.結果錶明該方法製備的PMMA-二氧化硅體繫在一較寬的濃度範圍內都能形成透明的穩定溶膠,接枝改性後的二氧化硅納米粒子在聚閤物中分散均勻,塗層機械彊度明顯提高,對金屬基底具有良好的附著效果.
불포화C=C쌍건표면수식적이양화규입자채용정규산을지화γ-갑기병희선양병기삼갑양기규완(KH-570)공수해제비,연후가입갑기병희산갑지단체화인발제원위취합생성PMMA접지개성이양화규용효.장해유궤-무궤복합용효선전도복도금속기편(황동급불수강)상,경90~120℃열처리2 h제비료복합도층.채용부립협변환홍외광보、X-사선연사、투사전경표정료도층결구화형모,동시용격광광산사、연필경도의등대용효립경화도층성능진행료측시.결과표명해방법제비적PMMA-이양화규체계재일교관적농도범위내도능형성투명적은정용효,접지개성후적이양화규납미입자재취합물중분산균균,도층궤계강도명현제고,대금속기저구유량호적부착효과.
In this work,tetraethylorthosilicate(TEOS)and γ-methacryloxypropyltrimethoxysilane(KH-570)were co-hydrolyzed to form an unsaturated silica contained C=C double bond,and methyl methacrylate was added to obtain the crosslinked organic-inorganic hybrid sol.The composite solution was coated on a metal substrate(brass or stainless steel)by dipping,and sintered at 90~120℃for 2 h.The coating structure was analyzed by FTIR spectrum analysis.Surface structure and particle diameter were characterized by TEM.Coating hardness was examined by a pencil-hardness instrument.Noncrystalline phase was probed by XRD.The experimental results demonstrate that silica can be crosslinked by methylmethacrylate in a wide concentration range with the aid of KH-570,and the coating of this organic-inorganic hybrid exhibits a uniform and compact surface with good performance in adherence and hardness.