{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"目的 研究IMR纳米复合涂层对飞机外部结构件的防护性能.方法 对比考察典型加速腐蚀环境条件下,飞机外部结构模拟件表面聚氨酯面漆涂层和IMR21纳米复合涂层的腐蚀失效行为.结果 在经过2个阶段各8个周期的加速腐蚀后,模拟件涂层表面均出现了鼓包、开裂、剥落等现象,而且涂层在第二阶段的腐蚀程度略重于第一阶段.与聚氨酯面漆涂层相比,IMR21纳米复合涂层的腐蚀失效程度要低很多,说明该纳米复合涂层具有优良的抗环境腐蚀性能.结论 可考虑在飞机结构制造、大修以及外场维护中采用IMR21纳米复合涂层进行表面防腐涂装处理.","authors":[{"authorName":"张蕾","id":"737a2165-aeb4-438d-b7f1-a7fb0e886525","originalAuthorName":"张蕾"},{"authorName":"陈群志","id":"2bef8d03-abf1-4b28-9bc9-b21e26d40dc8","originalAuthorName":"陈群志"},{"authorName":"刘慧丛","id":"8ed98199-9321-4a9e-b388-00c8bc9c35cf","originalAuthorName":"刘慧丛"},{"authorName":"朱立群","id":"ffd3b9cc-2496-4fbc-8a67-11b85b3bc694","originalAuthorName":"朱立群"}],"doi":"","fpage":"36","id":"4af4ae4d-9b2d-4771-98db-0933d9480f1f","issue":"2","journal":{"abbrevTitle":"BMJS","coverImgSrc":"journal/img/cover/BMJS.jpg","id":"3","issnPpub":"1001-3660","publisherId":"BMJS","title":"表面技术 "},"keywords":[{"id":"da9a1f1f-2a7e-448d-a913-5b15a9c4570d","keyword":"IMR21纳米复合涂层","originalKeyword":"IMR21纳米复合涂层"},{"id":"f0afe7c4-2b0a-4256-b4f0-064765299bb2","keyword":"典型加速腐蚀环境","originalKeyword":"典型加速腐蚀环境"},{"id":"f5542d09-fe30-4f9f-b239-d9aa8fa77036","keyword":"腐蚀失效行为","originalKeyword":"腐蚀失效行为"},{"id":"11f063d4-7518-4f5f-9371-aa3bf8428915","keyword":"聚氨酯面漆涂层","originalKeyword":"聚氨酯面漆涂层"},{"id":"4d71ee6e-aeab-4642-9ca1-c2d27e50bd94","keyword":"飞机外部结构件","originalKeyword":"飞机外部结构件"}],"language":"zh","publisherId":"bmjs201402008","title":"飞机外部IMR21纳米复合涂层在典型加速腐蚀环境中的腐蚀失效行为","volume":"43","year":"2014"},{"abstractinfo":"通过模拟施工现场的操作方式,考察了影响聚氨酯木器面漆层间附着的因素:涂层间有无机械打磨,羟基树脂的有效用羟基,涂层间涂装间隔时间,n(-NCO)∶n(-OH)不同配比,环境温度的变化以及助剂的使用等,讨论了通过改善施工方式和选择有效用羟基树脂以改善聚氨酯木器而漆涂层间附着的问题.","authors":[{"authorName":"周罕","id":"547a0d4d-82d9-49ed-8fd4-06d2e4d20957","originalAuthorName":"周罕"}],"doi":"10.3969/j.issn.0253-4312.2009.09.017","fpage":"61","id":"9d9e1bf7-b302-4313-a431-dbbc4f64680d","issue":"9","journal":{"abbrevTitle":"TLGY","coverImgSrc":"journal/img/cover/TLGY.jpg","id":"61","issnPpub":"0253-4312","publisherId":"TLGY","title":"涂料工业 "},"keywords":[{"id":"3b2d118f-9e19-4bd5-b045-f19224cdc215","keyword":"机械打磨","originalKeyword":"机械打磨"},{"id":"2e87fbb8-7e17-4417-ada4-82000af014a7","keyword":"有效用羟基","originalKeyword":"有效用羟基"},{"id":"e7ff99d0-1570-442d-adb7-b42e2202dd5f","keyword":"涂装间隔时间","originalKeyword":"涂装间隔时间"},{"id":"ff73009c-74d1-4f7a-888c-765911afc8e1","keyword":"施工配比","originalKeyword":"施工配比"},{"id":"9940c1c6-788b-4fcf-8949-7185d2c8c628","keyword":"温度变化","originalKeyword":"温度变化"}],"language":"zh","publisherId":"tlgy200909017","title":"聚氨酯木器面漆层间附着问题的探讨","volume":"39","year":"2009"},{"abstractinfo":"通过人工加速老化(氙灯老化法)对聚氨酯面漆分8个周期进行老化实验,并利用FT-IR、光泽仪、交流阻抗等测试方法对老化的涂层进行分析表征,评价涂层的老化行为,并探讨涂层老化的原因.结果表明,随着老化时间的延长,涂层表面光泽度不断下降,涂层的耐腐蚀性能下降,聚合物化学键被破坏,造成涂层树脂不断降解引起老化.","authors":[{"authorName":"朱永华","id":"0089f33b-dfa8-4765-b3fd-21b04466ca06","originalAuthorName":"朱永华"},{"authorName":"姚敬华","id":"9a9741e1-9db5-49bc-85a6-be63b688fcf6","originalAuthorName":"姚敬华"},{"authorName":"林仲玉","id":"042d1cd4-de3a-42f7-8f97-f8c3c7e78460","originalAuthorName":"林仲玉"},{"authorName":"金晓鸿","id":"5bcad821-6205-4a21-b8c3-71fa34887bad","originalAuthorName":"金晓鸿"},{"authorName":"林昌健","id":"2597a718-3772-49ff-9845-1cc5d6488573","originalAuthorName":"林昌健"}],"doi":"10.3969/j.issn.0253-4312.2005.06.014","fpage":"44","id":"5c876f9c-334f-4b06-a930-2218fafb663f","issue":"6","journal":{"abbrevTitle":"TLGY","coverImgSrc":"journal/img/cover/TLGY.jpg","id":"61","issnPpub":"0253-4312","publisherId":"TLGY","title":"涂料工业 "},"keywords":[{"id":"23c1bc76-d978-48b0-9162-a9a33e9c0035","keyword":"人工加速老化","originalKeyword":"人工加速老化"},{"id":"58e1fab4-3c41-4afa-83a5-b2bf2ad8a35d","keyword":"交流阻抗","originalKeyword":"交流阻抗"},{"id":"921a3b07-5112-44f2-90ad-0607068f31b6","keyword":"红外光谱","originalKeyword":"红外光谱"},{"id":"53462805-d5c7-4c16-9bbd-6840788d567b","keyword":"聚氨酯面漆","originalKeyword":"聚氨酯面漆"},{"id":"20d3047b-8d7b-4fa4-a6de-f05079d58b4c","keyword":"光老化机理","originalKeyword":"光老化机理"}],"language":"zh","publisherId":"tlgy200506014","title":"聚氨酯面漆光老化机理的探讨","volume":"35","year":"2005"},{"abstractinfo":"采用羟基丙烯酸树脂与聚酯树脂合理复配并科学选择固化剂、颜填料、助剂及施工工艺,所研制的脂肪族聚氨酯面漆具有以下特点:①相比丙烯酸聚氨酯面漆,基料的粘度更低,固含量更高,可达70%以上;漆膜韧性更好,50cm反冲没有任何的裂纹;漆膜表面平整光滑更加丰满;②相比聚酯聚氨酯面漆,通过选择固化剂HDI三聚体以及合理控制-NCO/-OH比例在1.1 ~1.2之间,漆膜有合理的交联密度,具有更好的干燥速度、涂层硬度、耐候性以及耐化学品性;③通过对润湿分散剂、流平剂、消泡剂、抗流挂剂、防老化剂以及催干剂等助剂的合理选择,漆膜表面状态良好,对层间附着力没有任何影响,施工性能及耐候性更佳;④对施工工艺科学设计,面漆达到了流平性、鲜映性、丰满度以及与底漆结合力好的效果.","authors":[{"authorName":"薛玉华","id":"96b1f747-c924-4ee3-b3a8-f344736ca839","originalAuthorName":"薛玉华"},{"authorName":"阮润琦","id":"cf99ced3-c13e-4b66-b133-13669df12947","originalAuthorName":"阮润琦"},{"authorName":"步明升","id":"ec48d0e7-8fdf-4a34-8695-7c10a94775df","originalAuthorName":"步明升"},{"authorName":"王黎","id":"52d0252d-5cc3-4a42-8ed1-ffea71b296dd","originalAuthorName":"王黎"},{"authorName":"汪威","id":"1af95049-5011-41b9-b312-6044dd21f6e9","originalAuthorName":"汪威"},{"authorName":"刘志","id":"a5d843a5-d2f2-4e64-ab28-3679369d8b2a","originalAuthorName":"刘志"},{"authorName":"郭年华","id":"9a2801a3-b4d0-47c3-9d52-d37de094a374","originalAuthorName":"郭年华"}],"doi":"","fpage":"35","id":"38e2672b-f073-4134-b3c9-8050c813ffc6","issue":"3","journal":{"abbrevTitle":"HCCLLHYYY","coverImgSrc":"journal/img/cover/HCCLLHYYY.jpg","id":"42","issnPpub":"1671-5381","publisherId":"HCCLLHYYY","title":"合成材料老化与应用"},"keywords":[{"id":"48be4a93-9470-476f-a1ba-4bd2f22ad4d5","keyword":"高固体分","originalKeyword":"高固体分"},{"id":"f738ffe7-fea2-41c5-8f4f-75079a5e5aaa","keyword":"脂肪族","originalKeyword":"脂肪族"},{"id":"3f6a1ef9-c399-4533-81ec-ff81e41b66f8","keyword":"丙烯酸树脂","originalKeyword":"丙烯酸树脂"},{"id":"293bad99-718c-4423-9ae2-2717865f79ac","keyword":"聚酯树脂","originalKeyword":"聚酯树脂"},{"id":"5dfb75ca-696c-4dc0-9420-cfe8e03ed7df","keyword":"面漆","originalKeyword":"面漆"},{"id":"d2e80484-f802-4402-8a75-96f26177663f","keyword":"研制","originalKeyword":"研制"}],"language":"zh","publisherId":"hccllhyyy201603008","title":"高固体分脂肪族聚氨酯面漆的研制","volume":"45","year":"2016"},{"abstractinfo":"涂料在天然曝晒的条件下进行老化,需要很长的时间,不能快速比较其性能优劣,采用人工加速老化试验(氙灯老化法)对丙烯酸磁漆和聚氨酯面漆分6个周期(1周期:200 h UV和50 h盐雾)进行老化,用FTIR,SEM和光泽仪对老化的涂层进行分析表征,用交流阻抗(EIS)法来测试两种涂层抗渗水性能的强弱.结果表明,聚氨酯面漆抗紫外线的能力要比丙烯酸磁漆强;聚氨酯面漆的抗渗水性能强于丙烯酸磁漆.聚氨酯的综合性能强于丙烯酸磁漆.","authors":[{"authorName":"朱永华","id":"73c1a0df-aefb-4d65-bf42-1fa2d2f11188","originalAuthorName":"朱永华"},{"authorName":"姚敬华","id":"103189fa-d9d3-40c6-b1c1-cabd14312bc1","originalAuthorName":"姚敬华"},{"authorName":"林仲玉","id":"ebb469bc-215e-4141-9889-985d6105e792","originalAuthorName":"林仲玉"},{"authorName":"金晓鸿","id":"5476ca6b-6ea3-4987-b7d2-7cd6841aecbb","originalAuthorName":"金晓鸿"},{"authorName":"叶美琪","id":"62a532be-b9fb-4fff-b668-53f4f7e75c83","originalAuthorName":"叶美琪"},{"authorName":"林昌健","id":"4dcf2126-e005-4f94-ac6a-6d3489b3cf79","originalAuthorName":"林昌健"}],"doi":"10.3969/j.issn.1001-1560.2005.05.017","fpage":"57","id":"f09542d2-91d7-4741-be70-c0b002a6c1fc","issue":"5","journal":{"abbrevTitle":"CLBH","coverImgSrc":"journal/img/cover/CLBH.jpg","id":"7","issnPpub":"1001-1560","publisherId":"CLBH","title":"材料保护"},"keywords":[{"id":"8581aca3-2454-4f09-aaf0-679d1bfcffae","keyword":"人工加速老化","originalKeyword":"人工加速老化"},{"id":"cbc98f8b-bd5f-430f-b252-369c2c56ce97","keyword":"交流阻抗","originalKeyword":"交流阻抗"},{"id":"6f3651b1-db49-4e88-b302-9b628a22b45b","keyword":"丙烯酸磁漆","originalKeyword":"丙烯酸磁漆"},{"id":"a56ac9f0-9ed7-4a05-a882-d112c5a43646","keyword":"聚氨酯面漆","originalKeyword":"聚氨酯面漆"}],"language":"zh","publisherId":"clbh200505017","title":"用人工加速老化法比较聚氨酯面漆和丙烯酸磁漆的性能","volume":"38","year":"2005"},{"abstractinfo":"分别往丙烯酸聚氨酯漆中添加不同量的1,4-丁二醇、有机锡促进剂及聚天门冬氨酸酯树脂制备出不同配方的低温固化防腐面漆,研究了它们的低温固化性能.结果表明:在5℃的低温下,3种物质的加入都能缩短凝胶时间,且随其用量增加凝胶时间缩短;1,4丁二醇和有机锡对漆膜固化240 h后的铅笔硬度仅能从7B提升至4R ~3B,而占树脂量20%(配方量7.28%)的聚天门冬氨酸酯可提升漆膜硬度至H;通过DSC分析验证,聚天门冬氨酸酯改进的面漆低温固化程度最高,是最理想的方案.","authors":[{"authorName":"李儒剑","id":"aab2181f-53b1-4df9-bc54-7edda4405cc9","originalAuthorName":"李儒剑"},{"authorName":"周升","id":"43f117a6-a59a-441b-83bb-a04963840979","originalAuthorName":"周升"},{"authorName":"罗振寰","id":"b7c8a0fd-c46f-4e7e-96fb-e8e2dbae1c77","originalAuthorName":"罗振寰"},{"authorName":"王宏","id":"e58d43a7-c022-40b9-932d-02bc6620fcac","originalAuthorName":"王宏"}],"doi":"","fpage":"6","id":"379081e0-8562-4d1c-a451-cffef8b3e1bf","issue":"2","journal":{"abbrevTitle":"TLGY","coverImgSrc":"journal/img/cover/TLGY.jpg","id":"61","issnPpub":"0253-4312","publisherId":"TLGY","title":"涂料工业 "},"keywords":[{"id":"b15bb4b5-52f2-4604-a0ae-49631be2b384","keyword":"丙烯酸聚氨酯","originalKeyword":"丙烯酸聚氨酯"},{"id":"815ec641-3880-432b-b054-fbe92ee7910b","keyword":"低温固化","originalKeyword":"低温固化"},{"id":"d6acc136-ae67-4c95-ba22-421b5db6c11e","keyword":"聚天门冬氨酸酯","originalKeyword":"聚天门冬氨酸酯"},{"id":"3ea25b83-e3a1-4cdd-a7b6-746a7d4212e7","keyword":"硬度","originalKeyword":"硬度"},{"id":"f40edff3-ac5d-48a5-86fd-d73f1a05cc42","keyword":"面漆","originalKeyword":"面漆"}],"language":"zh","publisherId":"tlgy201302002","title":"低温固化丙烯酸聚氨酯面漆的研究","volume":"43","year":"2013"},{"abstractinfo":"探讨了氟树脂用量,丙烯酸树脂羟值,固化剂的用量和颜料种类对面漆性能的影响.采用氟树脂改性丙烯酸聚氨酯,在配以适当的颜料,能获得耐海水高耐候面漆.","authors":[{"authorName":"魏文政","id":"b1905e77-85d3-4595-8a69-273cb90ca1a7","originalAuthorName":"魏文政"},{"authorName":"周光华","id":"3a9d88f5-bdf6-4d5b-b965-edde98a17abf","originalAuthorName":"周光华"},{"authorName":"张德琪","id":"3dbf2865-68ce-43f2-95f3-d376c4ad3f6a","originalAuthorName":"张德琪"}],"doi":"10.3969/j.issn.1001-3660.2003.05.011","fpage":"33","id":"9996909f-b216-4d00-862e-e194deb82f0b","issue":"5","journal":{"abbrevTitle":"BMJS","coverImgSrc":"journal/img/cover/BMJS.jpg","id":"3","issnPpub":"1001-3660","publisherId":"BMJS","title":"表面技术 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