{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"采用st(o)ber法制备出单分散氧化硅小球,并以此为模板,结合先驱体转化技术成功制备出C/SiC复合材料纳米有序多孔陶瓷接头,并对该接头制备工艺条件作了优化.对制备出的C/SiC多孔陶瓷接头分别采用先连后浸法(SJM)和直接浸渍法(DSM)进行了连接.结果显示,两种方法连接的连接件的抗弯强度分别达82.4和20.5 MPa,表明C/SiC多孔陶瓷接头采用SJM连接较好.","authors":[{"authorName":"王浩","id":"4d6f96d5-2010-4140-a402-283852f4fd4b","originalAuthorName":"王浩"},{"authorName":"<span style=\"color:red\">周</span><span style=\"color:red\">卿</span><span style=\"color:red\">军</span>","id":"2585b358-2857-481a-9237-cf87264e0bae","originalAuthorName":"周卿军"},{"authorName":"简科","id":"23ee9d42-5b77-42c5-8e8c-c150660c3336","originalAuthorName":"简科"},{"authorName":"邵长伟","id":"f65c673e-01af-4578-94b1-e352f198d1fe","originalAuthorName":"邵长伟"},{"authorName":"朱旖华","id":"0f8a9b71-e878-404d-90ad-e5608bdae2e7","originalAuthorName":"朱旖华"}],"doi":"10.3724/SP.J.1077.2013.1255","fpage":"763","id":"10f89764-7f9b-4687-8282-7c714545a516","issue":"7","journal":{"abbrevTitle":"WJCLXB","coverImgSrc":"journal/img/cover/WJCLXB.jpg","id":"62","issnPpub":"1000-324X","publisherId":"WJCLXB","title":"无机材料学报"},"keywords":[{"id":"ad6ff13a-e670-444d-99c5-f2c2747496bc","keyword":"C/SiC复合材料","originalKeyword":"C/SiC复合材料"},{"id":"a7b274cc-7294-4c6b-b0fe-5aea857985c2","keyword":"连接","originalKeyword":"连接"},{"id":"234d7c8f-6649-4b52-9041-04abb4f1b7fc","keyword":"先驱体转化技术","originalKeyword":"先驱体转化技术"},{"id":"b6cc7375-2a9b-42df-8bbf-3a3c456cc29c","keyword":"模板技术","originalKeyword":"模板技术"},{"id":"c90cfa24-41c7-4d92-9bb9-0465b5fc254e","keyword":"有序多孔陶瓷接头","originalKeyword":"有序多孔陶瓷接头"}],"language":"zh","publisherId":"wjclxb201307014","title":"C/SiC复合材料有序多孔陶瓷接头的制备及其连接技术研究","volume":"28","year":"2013"},{"abstractinfo":"介绍由常规五酸草绿色钝化工艺改良的,以重铬酸钾为体系的镀锌<span style=\"color:red\">军</span>绿色钝化工艺.","authors":[{"authorName":"奚兵","id":"d30c6c88-07a9-4e6e-af44-2c375b8e90b9","originalAuthorName":"奚兵"}],"doi":"10.3969/j.issn.1005-748X.2004.09.016","fpage":"414","id":"cc7eaf66-167b-4803-9d57-67270cc9a5ad","issue":"9","journal":{"abbrevTitle":"FSYFH","coverImgSrc":"journal/img/cover/FSYFH.jpg","id":"25","issnPpub":"1005-748X","publisherId":"FSYFH","title":"腐蚀与防护"},"keywords":[{"id":"e3c595f9-21b8-4923-8ae3-f792ba18b497","keyword":"镀锌层","originalKeyword":"镀锌层"},{"id":"f77f39f6-b5ef-41d8-a711-7ac5e012b3d9","keyword":"<span style=\"color:red\">军</span>绿色钝化","originalKeyword":"军绿色钝化"},{"id":"13934250-e5bb-402b-9e7b-e423b23f73ac","keyword":"工艺配方","originalKeyword":"工艺配方"}],"language":"zh","publisherId":"fsyfh200409016","title":"镀锌层<span style=\"color:red\">军</span>绿色钝化","volume":"25","year":"2004"},{"abstractinfo":"研究了空心玻璃微珠和纳米陶瓷材料等材料用量对<span style=\"color:red\">军</span>绿色隔热降温涂料热性能的影响,通过对多种着色颜料及其复配体系反射率的研究,优选出反射率较好的几种颜料,用它们调制出的<span style=\"color:red\">军</span>绿色降温涂料作为深色降温涂料具有较高的反射率,并且其他各项物理机械性能良好.","authors":[{"authorName":"杨万国","id":"793b0da8-8608-440c-8e4a-022dd055f4eb","originalAuthorName":"杨万国"},{"authorName":"董秀彩","id":"c43ae4eb-00bb-418f-b320-5597248b09df","originalAuthorName":"董秀彩"},{"authorName":"李少香","id":"dcb0977e-28d6-4c76-92aa-4941d1fcf746","originalAuthorName":"李少香"},{"authorName":"张波","id":"9ac8f00e-ce3c-4963-9180-da28371bfbb7","originalAuthorName":"张波"}],"doi":"10.3969/j.issn.0253-4312.2010.04.008","fpage":"29","id":"899a45e4-e10b-4ec0-8088-d856b2998bfc","issue":"4","journal":{"abbrevTitle":"TLGY","coverImgSrc":"journal/img/cover/TLGY.jpg","id":"61","issnPpub":"0253-4312","publisherId":"TLGY","title":"涂料工业   "},"keywords":[{"id":"a0184b87-3758-4313-aa44-baf3fbd7abb7","keyword":"隔热","originalKeyword":"隔热"},{"id":"455b948f-affd-4efb-9082-3660c20d295a","keyword":"降温","originalKeyword":"降温"},{"id":"a1e4b887-f4d5-406a-b78c-d7c59c2e08b4","keyword":"<span style=\"color:red\">军</span>绿色","originalKeyword":"军绿色"},{"id":"003b9d48-62da-4ed4-95f7-161b35e61c27","keyword":"反射率","originalKeyword":"反射率"},{"id":"89cc8604-33de-4671-ae2f-194a480e52cd","keyword":"发射率","originalKeyword":"发射率"}],"language":"zh","publisherId":"tlgy201004008","title":"<span style=\"color:red\">军</span>绿色隔热降温涂料的研究","volume":"40","year":"2010"},{"abstractinfo":"介绍了军用汽车哑光<span style=\"color:red\">军</span>绿色面漆及其稀释剂的配制,着重探讨了军用汽车哑光<span style=\"color:red\">军</span>绿色面漆的施工工艺,分析了热固性丙烯酸树脂、环氧树脂、氨基树脂和聚酯树脂,氨基比、消光粉、分散剂、防沉剂和稀释剂对军用汽车哑光<span style=\"color:red\">军</span>绿色面漆性能的影响.结果表明,选用丁醚化三聚氰胺甲醛树脂作交联剂,氨基比为28.24:10.44时,面漆的综合性能最佳,满足技术指标要求.","authors":[{"authorName":"周荣华","id":"9d8fe359-a153-4ac2-9745-47ef67d9b2ab","originalAuthorName":"周荣华"}],"doi":"","fpage":"54","id":"34e64f8d-7730-4138-af97-e5f572db43d7","issue":"8","journal":{"abbrevTitle":"DDYTS","coverImgSrc":"journal/img/cover/DDYTS.jpg","id":"21","issnPpub":"1004-227X","publisherId":"DDYTS","title":"电镀与涂饰   "},"keywords":[{"id":"2700d4bb-8f16-4b8e-afd7-2d87cd66fa72","keyword":"军用汽车漆","originalKeyword":"军用汽车漆"},{"id":"01729413-ab38-45c0-a4b1-af7179ace1d7","keyword":"哑光","originalKeyword":"哑光"},{"id":"e6d080d2-367b-4f51-9558-3edd2ce3d4d8","keyword":"<span style=\"color:red\">军</span>绿色面漆","originalKeyword":"军绿色面漆"},{"id":"3a48658a-04d6-454d-b566-6284166abb8d","keyword":"消光粉","originalKeyword":"消光粉"},{"id":"b438a55c-258b-4214-b43c-b697e5053abe","keyword":"氨基比","originalKeyword":"氨基比"}],"language":"zh","publisherId":"ddyts201008017","title":"军用汽车哑光<span style=\"color:red\">军</span>绿色面漆的研制","volume":"29","year":"2010"},{"abstractinfo":"以降低帐篷内的温度为研究目的,通过对乳液、颜料、反射填料等的研究制备了一种隔热性能和耐候性能良好的水性帐篷用<span style=\"color:red\">军</span>绿色热反射涂料.该涂料涂装帐篷后可有效地降低帐篷表面温度10～12℃,降低帐篷内部温度6～8℃,同时兼具有防水、保温功能.","authors":[{"authorName":"杨万国","id":"7d266973-088a-4385-8067-22bad1c10ff4","originalAuthorName":"杨万国"},{"authorName":"李少香","id":"91405c81-c7b4-42ce-9357-be7611585735","originalAuthorName":"李少香"},{"authorName":"王文芳","id":"8daca613-5c2a-4cc0-9779-36738c463c32","originalAuthorName":"王文芳"},{"authorName":"刘来运","id":"6bcbd793-77b8-44ef-b359-4107e9b147db","originalAuthorName":"刘来运"},{"authorName":"刘光烨","id":"41f3cb6e-5819-473b-9175-12b5209be2a6","originalAuthorName":"刘光烨"}],"doi":"10.3969/j.issn.0253-4312.2008.09.006","fpage":"22","id":"fc17c6c5-134d-4fa4-b1f1-cf3fca04ebfd","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":"c65fabad-ead2-421d-a502-b694f799a211","keyword":"帐篷","originalKeyword":"帐篷"},{"id":"8f6cc19f-c236-446e-a5df-c5fc8a2945af","keyword":"<span style=\"color:red\">军</span>绿色","originalKeyword":"军绿色"},{"id":"37665aed-511c-4306-87ee-b3c49e89cba8","keyword":"热反射涂料","originalKeyword":"热反射涂料"},{"id":"1fd1bb2b-3378-40ce-b91a-da58ae44611c","keyword":"乳液","originalKeyword":"乳液"},{"id":"49a4efa4-3e69-492e-a8d0-4fe1e35d2134","keyword":"反射填料","originalKeyword":"反射填料"},{"id":"afb9d98d-c7e2-4b9d-99f9-a77e83312082","keyword":"反射率","originalKeyword":"反射率"}],"language":"zh","publisherId":"tlgy200809006","title":"帐篷用<span style=\"color:red\">军</span>绿色热反射涂料的研究","volume":"38","year":"2008"},{"abstractinfo":"提出了一种镀锌层四酸型<span style=\"color:red\">军</span>绿色钝化工艺.研究了钝化液中4种酸的含量和钝化时间对钝化膜外观和耐蚀性的影响.确定最佳工艺条件为:CrO3 6 g/L,H3PO4 2 mL/L,H2SO4 2 mL/L,H3NO3 3 mL/L,温度25℃,pH 1.5,钝化时间100s.所得钝化膜为光亮的<span style=\"color:red\">军</span>绿色,耐蚀性较镀锌层好.","authors":[{"authorName":"张馥","id":"2b8db1fc-5b2e-454f-aac1-1c276ca639f4","originalAuthorName":"张馥"},{"authorName":"曾琳","id":"e4f61fd2-4339-417d-83ec-db5ff352cc47","originalAuthorName":"曾琳"},{"authorName":"王光明","id":"a54ddef6-1621-490c-96d9-0eeab192868b","originalAuthorName":"王光明"},{"authorName":"石磊","id":"4b9d2601-58a9-416a-87d8-0f2400da481e","originalAuthorName":"石磊"},{"authorName":"石璐丹","id":"e88d8699-526d-48fb-b942-ede65610f384","originalAuthorName":"石璐丹"}],"doi":"","fpage":"41","id":"2b78714f-9919-4865-99eb-09fe9be38d67","issue":"7","journal":{"abbrevTitle":"DDYTS","coverImgSrc":"journal/img/cover/DDYTS.jpg","id":"21","issnPpub":"1004-227X","publisherId":"DDYTS","title":"电镀与涂饰   "},"keywords":[{"id":"094af90d-2ff1-49fb-848b-fd83add089ba","keyword":"镀锌层","originalKeyword":"镀锌层"},{"id":"d06f1ea8-0313-478a-913c-8019b05d2709","keyword":"钝化","originalKeyword":"钝化"},{"id":"cc1baf70-5d98-48d7-8e2b-337594dde281","keyword":"<span style=\"color:red\">军</span>绿色","originalKeyword":"军绿色"},{"id":"afef50cb-7a1b-4a37-8e56-0b6591b50274","keyword":"耐蚀性","originalKeyword":"耐蚀性"}],"language":"zh","publisherId":"ddyts201307011","title":"四酸型镀锌层<span style=\"color:red\">军</span>绿色钝化工艺","volume":"32","year":"2013"},{"abstractinfo":"所介绍的工艺与常规五酸<span style=\"color:red\">军</span>绿色钝化工艺比较,可明显提高镀锌<span style=\"color:red\">军</span>绿色钝化膜的导电性能,并相应地获得良好的电磁屏蔽镀层,能满足较高级别的电磁屏蔽要求.介绍了改进后的工艺配方及铝合金生产工艺过程,讨论了钝化工艺各组份和操作条件对膜层质量的影响以及钝化膜的某些特性,特别是屏蔽性能,并指出了本工艺的不足之处.","authors":[{"authorName":"熊老伍","id":"a3c12827-addc-4c87-a97e-010ea3248eb8","originalAuthorName":"熊老伍"}],"doi":"10.3969/j.issn.1001-3849.2003.02.006","fpage":"18","id":"afc1c51e-898d-4538-ab80-7bec2fae3c08","issue":"2","journal":{"abbrevTitle":"DDYJS","coverImgSrc":"journal/img/cover/DDYJS.jpg","id":"20","issnPpub":"1001-3849","publisherId":"DDYJS","title":"电镀与精饰   "},"keywords":[{"id":"7461ef9c-84e7-4a87-96c5-d956a968aa22","keyword":"<span style=\"color:red\">军</span>绿色","originalKeyword":"军绿色"},{"id":"1dea9bc7-1db1-4283-b175-cc7135833e86","keyword":"钝化","originalKeyword":"钝化"},{"id":"b0f0f425-1890-4573-99cd-12ac519bde5d","keyword":"电磁屏蔽","originalKeyword":"电磁屏蔽"}],"language":"zh","publisherId":"ddjs200302006","title":"铝合金镀锌<span style=\"color:red\">军</span>绿色钝化工艺的改进","volume":"25","year":"2003"},{"abstractinfo":"开发了一种无铬<span style=\"color:red\">军</span>绿色钝化剂，通过单因素试验和正交试验研究了钝化剂的组成(包括硝酸镍、钼酸钠、丙二酸、亚硫酸钠和柠檬酸钠的用量)对钝化膜外观与腐蚀电流的影响，获得了较优的钝化剂配方为：硝酸镍15 g/L，钼酸钠20 g/L，丙二酸12 g/L，亚硫酸钠10 g/L，柠檬酸钠14 g/L。Q235钢碱性锌酸盐镀锌试样在pH为2.0~2.5、温度25~30°C的此钝化剂中钝化20~25 s，得到的钝化膜平整致密，呈<span style=\"color:red\">军</span>绿色，该钝化膜在(50±5) g/L的NaCl溶液中浸泡，出现白锈和红锈的时间为16 h和72 h，具有较好的耐蚀性。","authors":[{"authorName":"王胜楠","id":"57988526-45bd-47ac-94ba-391d7989b82f","originalAuthorName":"王胜楠"},{"authorName":"石磊","id":"4adc7710-e155-41c2-8330-51c0c1a9875f","originalAuthorName":"石磊"},{"authorName":"叶婧雅","id":"c557f17e-7238-4a1b-804f-d06de16fb7e3","originalAuthorName":"叶婧雅"},{"authorName":"<span style=\"color:red\">周</span>超","id":"4a3bb953-75c3-4350-b258-4c00f1e67f7f","originalAuthorName":"周超"},{"authorName":"王雪","id":"3afc27e1-5b01-452b-a972-ad8eaaf1775b","originalAuthorName":"王雪"},{"authorName":"王鑫鑫","id":"6bb61691-096f-4dd6-a86f-5fcca317829c","originalAuthorName":"王鑫鑫"}],"doi":"","fpage":"681","id":"7d7ae473-d35d-4130-b5f9-e5c898070431","issue":"12","journal":{"abbrevTitle":"DDYTS","coverImgSrc":"journal/img/cover/DDYTS.jpg","id":"21","issnPpub":"1004-227X","publisherId":"DDYTS","title":"电镀与涂饰   "},"keywords":[{"id":"623e7548-5ec6-4262-bd35-ee0122e40b89","keyword":"镀锌层","originalKeyword":"镀锌层"},{"id":"fc3a4bc6-8da5-4ee6-9db2-d57e647ba3b0","keyword":"无铬钝化剂","originalKeyword":"无铬钝化剂"},{"id":"576c44d0-43c2-4bb3-957c-a1141ca4276b","keyword":"<span style=\"color:red\">军</span>绿色","originalKeyword":"军绿色"},{"id":"4489a738-2997-46f3-b669-73d8a59df4c4","keyword":"耐蚀性","originalKeyword":"耐蚀性"}],"language":"zh","publisherId":"ddyts201512011","title":"镀锌层<span style=\"color:red\">军</span>绿色无铬钝化剂的研究","volume":"","year":"2015"},{"abstractinfo":"采用离子交换法除去六价铬<span style=\"color:red\">军</span>绿色钝化液中积累的金离子杂质(如Cr3+、Zn2+、Fe3+),从而延长了钝化液的使用寿命,减少了六价铬和总铬的排放量,可节约大量成本.","authors":[{"authorName":"张小勇","id":"c5f2a0eb-2a36-48ec-beec-9b4d1c534ff4","originalAuthorName":"张小勇"},{"authorName":"韩秀台","id":"867aac3d-9edc-47c9-8f72-4d4bfd41e54b","originalAuthorName":"韩秀台"},{"authorName":"张雄","id":"e89f1d85-caa6-454d-b1b9-e20103f2a051","originalAuthorName":"张雄"},{"authorName":"高长奇","id":"9b1d5945-90a4-479e-8f0f-aa09933ea7f7","originalAuthorName":"高长奇"},{"authorName":"刘新伟","id":"dd67e8b6-8b25-4c99-bcc2-dbeec56a2a28","originalAuthorName":"刘新伟"},{"authorName":"李艳娜","id":"031cc263-3c82-4643-95cc-c2bc57795176","originalAuthorName":"李艳娜"},{"authorName":"李丰","id":"cbac6bc0-3767-420c-8d6a-668789f33efa","originalAuthorName":"李丰"},{"authorName":"崔仲良","id":"166496f3-bcf0-42a5-8d7d-4997dcf68794","originalAuthorName":"崔仲良"}],"doi":"","fpage":"860","id":"643102ef-9a03-4e63-95ac-f180135afd11","issue":"15","journal":{"abbrevTitle":"DDYTS","coverImgSrc":"journal/img/cover/DDYTS.jpg","id":"21","issnPpub":"1004-227X","publisherId":"DDYTS","title":"电镀与涂饰   "},"keywords":[{"id":"60cc856d-78b8-4d51-bb60-76be26ed0840","keyword":"<span style=\"color:red\">军</span>绿色钝化","originalKeyword":"军绿色钝化"},{"id":"7a1e2fc3-c024-41f3-8f93-6be6661ebc51","keyword":"六价铬","originalKeyword":"六价铬"},{"id":"6d8d5e5a-25a7-4e53-bf80-083e7f164286","keyword":"金属杂质","originalKeyword":"金属杂质"},{"id":"1e0b6ab4-4381-4416-a1ff-5d9f421978c6","keyword":"离子交换法","originalKeyword":"离子交换法"},{"id":"02bea373-9fb0-4809-9d97-b3f57373343d","keyword":"阳离子树脂","originalKeyword":"阳离子树脂"}],"language":"zh","publisherId":"ddyts201515007","title":"离子交换法除去六价铬<span style=\"color:red\">军</span>绿色钝化液中的金属杂质","volume":"34","year":"2015"},{"abstractinfo":"论述了超高<span style=\"color:red\">周</span>疲劳研究的背景及意义,总结了近年来超高<span style=\"color:red\">周</span>疲劳的研究成果包括超高<span style=\"color:red\">周</span>疲劳的典型特征如S-N曲线、裂纹起源、起裂机理、影响超高<span style=\"color:red\">周</span>疲劳行为的因素等,介绍了超高<span style=\"color:red\">周</span>疲劳的常用实验手段,提出了今后超高<span 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