简介:[篇名]Chromate-freeconversioncoatingsforaluminum,[篇名]Chrome-FreeConversionCoatingforinServiceRepairofAircraftComponents,[篇名]Chromiumremediationorrelease:effectofiron(Ⅱ)sulfateadditiononchromium(Ⅵ)leachingfromcolumnsofchromiteoreprocessingresidue,[篇名]Coatingsteelwiresbypolymersinhydrodynamicdrawing,[篇名]Compositionofchromateconversioncoatingsformedonmulti-layeredthinfilmsofAA2024-T3matrixandAl{sub}2Cu,Al{sub}CuMgandAl{sub}20Cu{sub}2(MnFe){sub}3,[篇名]Conversioncoatingscienceandtechnology:isitevolvingorisitstuck?[篇名]Corrosionandbiofoulingcontrolinrefinerycoolingwatersystemusingsewagewaterasamakeup.
简介:Corrosionbehaviorandgalvaniccouplingofstainlesssteels,titanium,andalloy33inlithiumbromidesolutions;Corrosioninhibitionofalmninumandaluminumalloysbysolublechromates,chromatecoatings,andchromate-freecoatings;Corrosionofchromateconversioncoatingsonaluminumalloysinelectronicequipment;CorrotectRustpreventionforrollingbeatingsandprecisionparts;Cr(Ⅲ)oxidationwithleaddioxide-basedanodes
简介:由于纳米材料特殊的结构,使材料自身具有小尺寸效应、量子效应、宏观量子隧道效应、表面和界面效应等,从而使其具有许多与传统材料不同物理、化学性质。从20世纪80年代以来,纳米科技研究在世界范围内收到高度重视,很多技术已实用化。目前,纳米科技已经渗透到多个传统产业中,如染料、涂料、建筑材料、食品等。“十二五”期间,863计划重点支持了纳米改性胶凝及涂层复合材料的制备与应用技术开发,针对水泥基胶凝和椎间融合器两种典型材料,进行纳米改性技术研发,实现建筑工程耐久性关键指标、综合耐久性能提升和椎间融合器力学、生物学性能提升。前不久,“纳米改性胶凝及涂层复合材料的制备与应用技术”项目在北京通过验收。