{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"为研究大型发电机定子线棒真空压力浸渍(VPI))绝缘材料的国产化应用,利用Hexion漆分别浸渍3家国产少胶云母带和丰罗少胶云母带制备了铝排试验线棒,并对云母带及线棒的性能进行比较分析。结果表明:国产云母带的各项性能指标均达到丰罗少胶云母带的指标要求,包扎时云母带没有出现掉粉、剥离、脱落现象。3家国产云母带的铝排试验线棒的胶含量、热稳定性、常规电性能及电老化性能均优良,部分性能优于丰罗云母带线棒的性能。","authors":[{"authorName":"付强","id":"c711761e-7d1e-435b-aff3-7f06081ebb50","originalAuthorName":"付强"},{"authorName":"满宇光","id":"7bd22b52-12dd-44fa-bb08-d1418e2fe0e2","originalAuthorName":"满宇光"},{"authorName":"卢春莲","id":"d8c62ef1-7713-4a1c-94ff-41601f6ec898","originalAuthorName":"卢春莲"},{"authorName":"黄程伟","id":"20efcff6-13ab-430f-b6bb-48e454540dea","originalAuthorName":"黄程伟"},{"authorName":"冯超","id":"a8cadb73-f08d-4a36-a918-aae9f8057b94","originalAuthorName":"冯超"},{"authorName":"郑伟","id":"7d1bae75-9952-44db-9f8c-24cc9ad363ef","originalAuthorName":"郑伟"},{"authorName":"张秋寒","id":"4c7e8cb4-0588-47cb-95a5-efb1ea685b58","originalAuthorName":"张秋寒"},{"authorName":"潘延明","id":"51b62bd1-2a37-4485-ae45-b9c03ff5ac03","originalAuthorName":"潘延明"},{"authorName":"隋银德","id":"4a8d2f25-8a6c-4811-8ff0-ea39976dce75","originalAuthorName":"隋银德"}],"doi":"","fpage":"1","id":"732c64e0-8342-4739-b1c8-0b585242de1c","issue":"4","journal":{"abbrevTitle":"JYCL","coverImgSrc":"journal/img/cover/JYCL.jpg","id":"50","issnPpub":"1009-9239","publisherId":"JYCL","title":"绝缘材料"},"keywords":[{"id":"5793891a-bb23-4b06-b9af-713960c32d5a","keyword":"定子线棒","originalKeyword":"定子线棒"},{"id":"b0da2cea-f2af-4fec-b97f-84c0b03df81c","keyword":"真空压力浸渍","originalKeyword":"真空压力浸渍"},{"id":"b40d44d1-14f3-4bbf-8214-a0c514e5003f","keyword":"少胶云母带","originalKeyword":"少胶云母带"},{"id":"38523118-a0ca-4c76-ac4a-fb5970259cb0","keyword":"电性能","originalKeyword":"电性能"},{"id":"fd0097ac-08f1-467e-942b-107a98b73ef4","keyword":"电老化","originalKeyword":"电老化"}],"language":"zh","publisherId":"jycltx201504001","title":"大型发电机定子线棒VPI用绝缘材料国产化应用研究(Ⅱ)","volume":"","year":"2015"},{"abstractinfo":"简要介绍了半个世纪以来环氧粉云母多胶模压技术在中国的发展历程,在已有运行经验和技术水平的基础上,对百万千瓦级火电机组、水电机组、核电机组的多胶模压绝缘技术展开研究,对主绝缘进行了耐热、电、机械、环境(\"TEME\")应力试验.结果表明:多胶模压绝缘结构具有优异的性能,能确保机组的安全稳定运行.","authors":[{"authorName":"潘延明","id":"bc4d0554-faf1-4699-ad36-7c9a5c801f04","originalAuthorName":"潘延明"},{"authorName":"陈阳","id":"82ebae51-40a2-4a1b-aa34-8ecca0ed72ca","originalAuthorName":"陈阳"}],"doi":"10.16790/j.cnki.1009-9239.im.2016.02.008","fpage":"38","id":"3e04325a-f7f5-4ac2-8887-92f03cef5bf8","issue":"2","journal":{"abbrevTitle":"JYCL","coverImgSrc":"journal/img/cover/JYCL.jpg","id":"50","issnPpub":"1009-9239","publisherId":"JYCL","title":"绝缘材料"},"keywords":[{"id":"d643a245-47e6-429c-936c-952dfa462f65","keyword":"环氧粉云母","originalKeyword":"环氧粉云母"},{"id":"126d06b4-7b9d-4c2a-b53e-7ec1c85f3d12","keyword":"多胶","originalKeyword":"多胶"},{"id":"cd15c09f-bd57-421a-92ea-fe630058033b","keyword":"绝缘技术","originalKeyword":"绝缘技术"},{"id":"337f1558-5ca9-4971-a9f9-7638c53444f8","keyword":"定子线圈","originalKeyword":"定子线圈"}],"language":"zh","publisherId":"jycltx201602008","title":"环氧粉云母多胶模压绝缘技术的开发和优化","volume":"","year":"2016"},{"abstractinfo":"基于构造逐级控制理论,以江苏泗洪县褶皱区的区域地质为背景,运用地质构造解析和物化探等手段研究矿区构造.结果表明,区域构造控制矿区构造,矿区构造反映区域构造.宿迁市泗洪县潘赵庄铜镍矿区处于构造有利区,岩石化学特征对形成铜镍硫化物矿床较为有利,具备铜镍硫化物矿床的找矿前提,确定有利靶区受构造控制作用明显,存在于岩体中下部熔离型矿体及岩体边贯入式矿体两处.","authors":[{"authorName":"罗跃","id":"744127b8-7fa6-4807-96bc-8226affe3bff","originalAuthorName":"罗跃"},{"authorName":"周贤金","id":"074c8c12-ab87-4459-9d53-f08320a80ca8","originalAuthorName":"周贤金"},{"authorName":"施建斌","id":"e7efc5f3-3467-429c-a26b-986b5b37f807","originalAuthorName":"施建斌"},{"authorName":"冯学知","id":"c4d96ab0-cf41-4f0a-aea3-6042ba5a1bdf","originalAuthorName":"冯学知"},{"authorName":"刘正疆","id":"6b5ad79e-3d4c-4e3f-b65a-78778d2f5430","originalAuthorName":"刘正疆"},{"authorName":"张琪","id":"69cc55d7-64c9-4bcb-8cad-a9d676dd0962","originalAuthorName":"张琪"}],"doi":"10.3969/j.issn.2095-1744.2013.06.010","fpage":"48","id":"139b4e79-0f29-4c56-ac61-41753022d73d","issue":"6","journal":{"abbrevTitle":"YSJSGC","coverImgSrc":"journal/img/cover/YSJSGC.jpg","id":"76","issnPpub":"2095-1744","publisherId":"YSJSGC","title":"有色金属工程"},"keywords":[{"id":"c20e5d56-689a-40aa-9a63-796dac006db7","keyword":"铜-镍硫化矿","originalKeyword":"铜-镍硫化矿"},{"id":"5a907ae9-825e-4737-a764-797201503314","keyword":"构造逐级控制","originalKeyword":"构造逐级控制"},{"id":"c138a0de-cc7e-440c-8177-b76cf229ee27","keyword":"构造指示矿","originalKeyword":"构造指示矿"},{"id":"36755356-60f4-4d84-90e5-ab2910d6c12a","keyword":"靶区","originalKeyword":"靶区"},{"id":"44cad5bd-df83-4450-97f6-9b6e490ab7c9","keyword":"泗洪县","originalKeyword":"泗洪县"}],"language":"zh","publisherId":"ysjs201306015","title":"潘赵庄铜镍矿区构造逐级控制及构造指示矿特征探讨","volume":"3","year":"2013"},{"abstractinfo":"试样于潘菲氏管中加入还原铁粉,加热使汞与基体及共存元素分离;试验了氢化物-原子荧光光谱法测定汞的最佳条件.汞的检出限为0.05ng/mL,线性范围为0.5~250ng/mL,汞的回收率为94%~101%.方法应用于锌精矿中汞的测定,取得满意结果.","authors":[{"authorName":"钟勇","id":"28126a39-4461-43d5-85c3-fe3a51b87f74","originalAuthorName":"钟勇"}],"doi":"10.3969/j.issn.1000-7571.2002.01.012","fpage":"38","id":"d43ad448-87f6-4c0c-9651-93da5de3aadf","issue":"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"},"keywords":[{"id":"a2e8e9c0-5aab-4736-9937-982056210857","keyword":"潘菲氏管","originalKeyword":"潘菲氏管"},{"id":"c3888355-ef2a-44c7-91ef-2b4d70031e81","keyword":"氢化物","originalKeyword":"氢化物"},{"id":"805c6bb7-c5dc-489d-9e0c-37dc385c05f8","keyword":"冷原子荧光光谱法","originalKeyword":"冷原子荧光光谱法"},{"id":"e2805568-4e3c-4b8f-bf78-31f522e2f76d","keyword":"锌精矿","originalKeyword":"锌精矿"},{"id":"536aae8f-f0d4-4aff-a0b7-256b6e58239f","keyword":"汞","originalKeyword":"汞"}],"language":"zh","publisherId":"yjfx200201012","title":"潘菲氏管分离氢化物-冷原子荧光光谱法测定锌精矿中微量汞","volume":"22","year":"2002"},{"abstractinfo":"简要概括了陶瓷坯体流延成型的工艺过程,比较了水基流延成型与传统流延成型技术相比的优点和不足之处,着重介绍了陶瓷材料新型流延成型工艺的研究现状,并指出了陶瓷坯体水基流延成型工艺的发展方向.","authors":[{"authorName":"黄勇","id":"18bdc004-2f8d-4eb6-9286-1dd6f4c7a39b","originalAuthorName":"黄勇"},{"authorName":"向军辉","id":"3778a070-fa08-4c64-bc5e-50f5d486a58e","originalAuthorName":"向军辉"},{"authorName":"谢志鹏","id":"5290390a-3f30-498c-8d45-66fc3754fb17","originalAuthorName":"谢志鹏"},{"authorName":"杨金龙","id":"5c3ae24a-d357-45f2-994f-326c3c441b22","originalAuthorName":"杨金龙"}],"doi":"10.3969/j.issn.1001-1625.2001.05.005","fpage":"22","id":"f30e94fc-c189-401f-af16-fb56ecff11e7","issue":"5","journal":{"abbrevTitle":"GSYTB","coverImgSrc":"journal/img/cover/GSYTB.jpg","id":"36","issnPpub":"1001-1625","publisherId":"GSYTB","title":"硅酸盐通报 "},"keywords":[{"id":"60a53396-810a-4072-8217-f63c1779fb63","keyword":"陶瓷","originalKeyword":"陶瓷"},{"id":"b51d8e01-45f7-4659-86e1-517dbbafa3f8","keyword":"水基","originalKeyword":"水基"},{"id":"8975b651-c895-4cb0-bf9c-72a6371d9449","keyword":"流延成型","originalKeyword":"流延成型"}],"language":"zh","publisherId":"gsytb200105005","title":"陶瓷材料流延成型研究现状","volume":"20","year":"2001"},{"abstractinfo":"概述了流延成型工艺的特点及发展历程,比较了水基流延成型与传统流延成型技术的优缺点.针对特定的流延成型工艺过程进行了详细的介绍和理论分析,同时介绍了几种新型的流延工艺.最后对流延成型技术的研究和应用进行了展望,并提出了自己的见解.","authors":[{"authorName":"宋占永","id":"824e6e00-0515-4440-9585-d79d01db1087","originalAuthorName":"宋占永"},{"authorName":"董桂霞","id":"21f921c9-5c45-4951-b087-be62ea9262ff","originalAuthorName":"董桂霞"},{"authorName":"杨志民","id":"89412e75-7c52-4d5a-8315-62a4ad878850","originalAuthorName":"杨志民"},{"authorName":"马舒旺","id":"0acc10ba-8ca5-40c2-b702-472bc372845e","originalAuthorName":"马舒旺"}],"doi":"","fpage":"43","id":"26f48894-33f3-42a2-819f-b566c7f7a155","issue":"9","journal":{"abbrevTitle":"CLDB","coverImgSrc":"journal/img/cover/CLDB.jpg","id":"8","issnPpub":"1005-023X","publisherId":"CLDB","title":"材料导报"},"keywords":[{"id":"53ce82db-3047-4c48-a4d9-f8cefb85636f","keyword":"陶瓷","originalKeyword":"陶瓷"},{"id":"209f763c-a22b-4ed7-93eb-7431e87a6dd5","keyword":"传统流延成型","originalKeyword":"传统流延成型"},{"id":"7e4c6604-9c99-49c5-b3bb-023bfe08e1f7","keyword":"水基流延成型","originalKeyword":"水基流延成型"}],"language":"zh","publisherId":"cldb200909007","title":"陶瓷薄片的流延成型工艺概述","volume":"23","year":"2009"},{"abstractinfo":"流延成型是一种目前使用较广泛,能够获得高质量、超薄型陶瓷薄片的成型方法.本文论述了流延成型时有机物(包括溶剂、分散剂、粘结剂、增塑剂等)的选择原则、浆料的制备以及流延工艺过程,并对影响流延膜厚度和流延膜质量的因素进行了分析讨论,同时提出了改进流延膜质量的措施.","authors":[{"authorName":"李冬云","id":"009664a9-8438-4c6f-bcbf-4d3f8980545c","originalAuthorName":"李冬云"},{"authorName":"乔冠军","id":"14b3defd-a308-4028-94b7-1d835aa63e3c","originalAuthorName":"乔冠军"},{"authorName":"金志浩","id":"78906b21-ce57-4b69-83b9-a08c2c6de1d1","originalAuthorName":"金志浩"}],"doi":"10.3969/j.issn.1001-1625.2004.02.012","fpage":"44","id":"6ab53dd4-195e-4124-ab37-939a94587891","issue":"2","journal":{"abbrevTitle":"GSYTB","coverImgSrc":"journal/img/cover/GSYTB.jpg","id":"36","issnPpub":"1001-1625","publisherId":"GSYTB","title":"硅酸盐通报 "},"keywords":[{"id":"5964eb1c-8387-4be8-937a-315907962307","keyword":"流延法","originalKeyword":"流延法"},{"id":"c4ac9093-a9ed-4796-a94d-c82274cd0e72","keyword":"陶瓷薄片","originalKeyword":"陶瓷薄片"},{"id":"80fb067e-56b8-42b9-9b97-95958db647a0","keyword":"研究进展","originalKeyword":"研究进展"}],"language":"zh","publisherId":"gsytb200402012","title":"流延法制备陶瓷薄片的研究进展","volume":"23","year":"2004"},{"abstractinfo":"简要介绍了罗丹明化合物的结构特征、合成、特性及应用,重点介绍了:①新型罗丹明类荧光探针的合成与性能研究;②新型罗丹明及香豆素类荧光探针的合成及其对金属离子的识别。并对罗丹明化学的发展进行了展望。","authors":[{"authorName":"张来新","id":"2a9633e5-403b-45d4-a6cb-ddb00aaab16e","originalAuthorName":"张来新"},{"authorName":"朱海云","id":"07f5873d-1d02-4c1c-8e07-203b00649796","originalAuthorName":"朱海云"}],"doi":"","fpage":"126","id":"fc3c639c-685f-452c-b7b1-6b03327165c0","issue":"4","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":"50da2080-d59b-4f4f-958e-df504196939d","keyword":"罗丹明","originalKeyword":"罗丹明"},{"id":"7e5eb964-7368-464b-9f66-5b09fb4d2edd","keyword":"合成","originalKeyword":"合成"},{"id":"ccbc1232-0351-4964-861c-d0131a7d64bb","keyword":"应用","originalKeyword":"应用"}],"language":"zh","publisherId":"hccllhyyy201504032","title":"罗丹明化学研究的新进展?","volume":"","year":"2015"},{"abstractinfo":"陶瓷粉体颗粒易在流延成形过程中产生取向性分布,使得流延坯体本身在烧结后容易出现收缩各向异性.采用图像处理的办法测量流延坯体中的颗粒取向,利用数据挖掘技术对所得结果进行整理.结果表明流延坯体中不同层位的颗粒具有不同的排列取向,上下层颗粒的丰度和各向异性率之间都呈幂函数关系.","authors":[{"authorName":"彭周","id":"ff23d0c0-dfda-4ef8-8cbd-f4542894d24c","originalAuthorName":"彭周"},{"authorName":"肖建中","id":"dbe819ac-d80e-4e2b-a1b6-4fdfae5aa03f","originalAuthorName":"肖建中"},{"authorName":"梅思杨","id":"694a8902-66d6-426a-a7ce-28c5fef309ee","originalAuthorName":"梅思杨"},{"authorName":"荣立","id":"bf6f6772-3604-4117-a7b3-11c19af13b08","originalAuthorName":"荣立"},{"authorName":"李向东","id":"9583fddc-2e0f-4b26-ac4b-44e17b07bae4","originalAuthorName":"李向东"}],"doi":"","fpage":"1260","id":"8345d563-59be-4ca0-9a47-ac1786c3c866","issue":"6","journal":{"abbrevTitle":"GSYTB","coverImgSrc":"journal/img/cover/GSYTB.jpg","id":"36","issnPpub":"1001-1625","publisherId":"GSYTB","title":"硅酸盐通报 "},"keywords":[{"id":"1335f4af-7b8b-4d95-a537-fc499ddcf8d8","keyword":"陶瓷颗粒","originalKeyword":"陶瓷颗粒"},{"id":"de8ea198-2e77-4f6c-8794-b72c18290c40","keyword":"流延成形","originalKeyword":"流延成形"},{"id":"34522f51-8fa2-4f3c-8986-f287882c1f98","keyword":"图像分析","originalKeyword":"图像分析"},{"id":"33f0bc7f-fd65-4e30-8321-52277fbf3ddc","keyword":"丰度","originalKeyword":"丰度"},{"id":"dffd03c3-32d1-4d2a-bfe3-c92f42c2e93f","keyword":"各向异性率","originalKeyword":"各向异性率"}],"language":"zh","publisherId":"gsytb201106007","title":"陶瓷流延颗粒排列的定量图像研究","volume":"30","year":"2011"},{"abstractinfo":"以溶胶-凝胶法制得的纳米堇青石(2MgO-2Al2O3-5SiO2)粉体为原料,聚丙烯酸钠(PAAS)为分散剂,制备堇青石水基流延浆料并流延成型.对适于流延的堇青石粉体粒径、聚丙烯酸钠含量及流延坯片的微观形貌进行研究.结果表明:粉体粒径为600nm左右的堇青石粉体适用于制备水基流延浆料;分散剂聚丙烯酸钠最佳含量为1.5%(质量分数);得到的流延生坯微观结构均一,上下表面平整一致,不存在密度梯度,满足高频片式电感所用坯片的要求.","authors":[{"authorName":"牛厂磊","id":"3e46ff39-7e29-4b6f-a6b9-0dcb8fdc548e","originalAuthorName":"牛厂磊"},{"authorName":"王少洪","id":"3dd4d8c9-9009-4c95-8ebb-bd4f6a6fb1be","originalAuthorName":"王少洪"},{"authorName":"侯朝霞","id":"6d7f3059-b394-4643-9d02-e60c6a36e056","originalAuthorName":"侯朝霞"},{"authorName":"胡小丹","id":"b41ef3af-c4b9-4c84-a1cd-1b95e68bd7c4","originalAuthorName":"胡小丹"},{"authorName":"陆浩然","id":"b5beb67c-dd1d-4271-a8a6-ec5349e28ca1","originalAuthorName":"陆浩然"},{"authorName":"薛召露","id":"da346d9e-0402-4082-b1b3-80b2901f8162","originalAuthorName":"薛召露"},{"authorName":"王浩","id":"739615c3-10ce-4857-803d-d2d06e55e78c","originalAuthorName":"王浩"},{"authorName":"王彩","id":"49fa32e3-abc7-4709-841c-50b8fdf89f4b","originalAuthorName":"王彩"}],"doi":"10.3969/j.issn.1001-4381.2010.z2.010","fpage":"33","id":"503355a3-70c7-41d6-a404-1307d9eec639","issue":"z2","journal":{"abbrevTitle":"CLGC","coverImgSrc":"journal/img/cover/CLGC.jpg","id":"9","issnPpub":"1001-4381","publisherId":"CLGC","title":"材料工程"},"keywords":[{"id":"44139309-ad1c-41ef-9edd-c074b18f1387","keyword":"水基流延","originalKeyword":"水基流延"},{"id":"ce5b6ea8-dfb9-449c-903a-7744938900df","keyword":"粒径","originalKeyword":"粒径"},{"id":"6e0a177a-9438-4abf-a75a-28fac18b5ae9","keyword":"分散剂","originalKeyword":"分散剂"},{"id":"ae41f406-f6cc-45ca-bac6-351fc8128d68","keyword":"微观结构","originalKeyword":"微观结构"}],"language":"zh","publisherId":"clgc2010z2010","title":"水基流延法制备堇青石坯片","volume":"","year":"2010"}],"totalpage":101,"totalrecord":1002}