{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"采用自主研制的自动化电刷镀技术制得n-SiC/Ni复合电刷镀镀层.对比研究了手动与自动复合电刷镀镀层的组织与摩擦磨损性能.相对于手动电刷镀镀层,自动化镀层表面形貌更加均匀细化,组织更加致密,显微硬度更高.高温滑动摩擦磨损实验表明:相对于手动电刷镀镀层,自动化镀层拥有更好的耐磨性能.","authors":[{"authorName":"张斌","id":"bd4132c8-b562-4e31-b774-454a3b2cdbac","originalAuthorName":"张斌"},{"authorName":"徐滨士","id":"3b14f7e8-4b58-4d26-b1de-8ac9c9d06dc8","originalAuthorName":"徐滨士"},{"authorName":"董世运","id":"8ae3c672-e82b-4b52-a0e6-e59d91a3ec53","originalAuthorName":"董世运"},{"authorName":"吴斌","id":"f86aec19-aa4f-44a4-adbe-d5b8d0e89f5c","originalAuthorName":"吴斌"}],"doi":"10.3969/j.issn.1001-4381.2008.01.014","fpage":"54","id":"a557db0f-c576-44a9-a351-e08ccf68a687","issue":"1","journal":{"abbrevTitle":"CLGC","coverImgSrc":"journal/img/cover/CLGC.jpg","id":"9","issnPpub":"1001-4381","publisherId":"CLGC","title":"材料工程"},"keywords":[{"id":"8a571e73-5c9b-4db2-8f99-98b92d41e707","keyword":"自动化电刷镀","originalKeyword":"自动化电刷镀"},{"id":"14b7ed1d-7a21-4ca0-9106-11427660e87c","keyword":"复合刷镀层","originalKeyword":"复合刷镀层"},{"id":"5339c420-b237-4bf2-b14e-111105437f53","keyword":"高温磨损","originalKeyword":"高温磨损"}],"language":"zh","publisherId":"clgc200801014","title":"自动化n-SiC/Ni复合电刷镀层的高温摩擦性能研究","volume":"","year":"2008"},{"abstractinfo":"为提高电沉积镀层质量和自动化程度,开发了新型的自动化电刷镀技术。利用扫描电镜、X 射线衍射仪、透射电镜、X 射线应力测试仪、数显显微硬度计和显微磨损试验机考察了不同电流密度下制备的电刷镀 Ni 镀层的组织结构和性能,并与电镀 Watts Ni对比。结果表明,应用电刷镀制备的镍镀层组织平整致密,无针孔、麻点等缺陷；随着电流密度从4A/dm2增加到16A/dm2,电刷镀Ni镀层的(111)面择优取向逐渐降低,(200)面择优取向逐渐增加,镀层的晶粒尺寸和应力逐渐增大,硬度约在500~600HV之间波动,镀层磨损失重由6.8mg降低到5.2mg。","authors":[{"authorName":"胡振峰","id":"692460d6-6d3e-4c70-8113-9bd5bffac5dc","originalAuthorName":"胡振峰"},{"authorName":"汪笑鹤","id":"a13b117b-e0e8-43dc-a4f9-977ead9ff644","originalAuthorName":"汪笑鹤"},{"authorName":"吕镖","id":"ebf8b0bb-0172-4e7e-a8a3-0085173f3030","originalAuthorName":"吕镖"},{"authorName":"徐滨士","id":"8f3a5305-f9dc-41aa-a98f-22168e67336d","originalAuthorName":"徐滨士"}],"doi":"10.3969/j.issn.1001-9731.2013.17.016","fpage":"2507","id":"a71af647-0b3b-4452-96ba-ef8d779fac0d","issue":"17","journal":{"abbrevTitle":"GNCL","coverImgSrc":"journal/img/cover/GNCL.jpg","id":"33","issnPpub":"1001-9731","publisherId":"GNCL","title":"功能材料"},"keywords":[{"id":"8537cfae-b6cc-4837-a28f-6c24b173d9cf","keyword":"电刷镀","originalKeyword":"电刷镀"},{"id":"f108ca27-8b43-44de-bb1c-a77d1fc8c6db","keyword":"自动化","originalKeyword":"自动化"},{"id":"615771b7-8806-4afd-ba8d-ab22d47449f9","keyword":"电流密度","originalKeyword":"电流密度"},{"id":"120766d3-37e5-461d-ab40-45e221628f7e","keyword":"组织结构","originalKeyword":"组织结构"},{"id":"59b96f37-2bd1-4d03-bf19-7422aa23b473","keyword":"性能","originalKeyword":"性能"}],"language":"zh","publisherId":"gncl201317016","title":"电流密度对自动化电刷镀Ni镀层组织结构和性能的影响","volume":"","year":"2013"},{"abstractinfo":"设计并制造了针对内孔类零件电刷镀修复的自动化脉冲流镀设备,其主要由镀笔主轴、三向数控工作台、镀液分离回收系统、工件夹具(以发动机连杆为例)、控制系统5部分组成.该设备能够为流镀过程提供脉冲(PC)和直流(DC)两种电源,可以精确控制镀笔3个方向的运动轨迹和速率,并能保证工作过程中6种镀液互不混合、循环利用.采用该脉冲流镀设备分别在直流电流和脉冲电流条件下制备了纳米复合镀层.与直流镀所得镀层相比,脉冲镀所得镀层更加均匀致密,Al2O3纳米颗粒含量更高,显微硬度更高,残余应力更低,耐磨性能更佳.","authors":[{"authorName":"满佳","id":"273d0c46-0179-4df2-b466-ba05989d0651","originalAuthorName":"满佳"},{"authorName":"张松","id":"0497a255-771a-43c2-b27a-c35a7110bf11","originalAuthorName":"张松"},{"authorName":"丁韬","id":"5e64c9d1-9645-4502-8d13-72be6ead24ef","originalAuthorName":"丁韬"},{"authorName":"王圣斌","id":"c816380a-754e-4072-84fe-dbfc84d90b5f","originalAuthorName":"王圣斌"}],"doi":"","fpage":"737","id":"8265c34a-92fe-4747-836d-73a9e7eea387","issue":"17","journal":{"abbrevTitle":"DDYTS","coverImgSrc":"journal/img/cover/DDYTS.jpg","id":"21","issnPpub":"1004-227X","publisherId":"DDYTS","title":"电镀与涂饰 "},"keywords":[{"id":"3d8361d9-0af0-4b4f-b8c9-69423734d648","keyword":"电刷镀","originalKeyword":"电刷镀"},{"id":"c11b3260-898a-4a67-86a3-3e3bd8039324","keyword":"脉冲流镀","originalKeyword":"脉冲流镀"},{"id":"55481519-08eb-4746-b40c-a977b4512b7b","keyword":"自动化","originalKeyword":"自动化"},{"id":"83070a3c-22be-4b41-9547-7b5707275562","keyword":"镀液循环","originalKeyword":"镀液循环"}],"language":"zh","publisherId":"ddyts201417004","title":"自动化脉冲流镀设备及其应用","volume":"33","year":"2014"},{"abstractinfo":"介绍了汽车自动喷墨字工艺的系统组成、功能描述、工作流程及涂膜性能并与以往传统喷字工艺进行了对比.结果表明:使用自动喷墨设备实现喷墨自动化,代替了传统人工喷字工艺,提高了喷字效率,节约了人工成本.","authors":[{"authorName":"靳玉涛","id":"d2dea5b1-bfa1-4b28-970c-3b33e5eb2774","originalAuthorName":"靳玉涛"},{"authorName":"冉浩","id":"04bb66c0-a4fb-427d-87cf-cd0b9df464f3","originalAuthorName":"冉浩"}],"doi":"","fpage":"79","id":"4cedb646-d7ee-4122-a1ce-88b33171c8d5","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":"7ed77a8f-0b50-4989-874b-11ccd3a1ce0f","keyword":"喷墨字","originalKeyword":"喷墨字"},{"id":"c6be7c45-8516-47e7-915b-5e43c212897a","keyword":"自动化","originalKeyword":"自动化"},{"id":"b4e66bbe-3f00-4ea9-8a03-9de41016db0a","keyword":"成本","originalKeyword":"成本"},{"id":"1066a93b-40c3-44c5-b024-18d5e72a6d11","keyword":"效率","originalKeyword":"效率"}],"language":"zh","publisherId":"tlgy201504017","title":"浅谈汽车自动化喷字工艺","volume":"45","year":"2015"},{"abstractinfo":"介绍了在自动电镀生产线上,铝硅合金制件电镀锡工艺过程和生产实践情况.叙述了提高硫酸亚锡溶液深镀能力的办法,溶液的维护和在生产中应注意的问题.对复杂形状铝件自动化电镀锡生产提供了借鉴的经验.","authors":[{"authorName":"朱俊良","id":"55085331-c4ac-4a1e-96e0-ae0c4682e443","originalAuthorName":"朱俊良"},{"authorName":"张振强","id":"fcd3c218-230e-4532-b77f-795496de1347","originalAuthorName":"张振强"}],"doi":"10.3969/j.issn.1001-3660.2000.03.014","fpage":"33","id":"fd2ad472-295c-42e9-a0b8-a51ed41ee06e","issue":"3","journal":{"abbrevTitle":"BMJS","coverImgSrc":"journal/img/cover/BMJS.jpg","id":"3","issnPpub":"1001-3660","publisherId":"BMJS","title":"表面技术 "},"keywords":[{"id":"2337c7d2-b1c6-4fe9-9491-50ec3625d374","keyword":"铝合金","originalKeyword":"铝合金"},{"id":"5e0fca20-6a5e-4e8b-a8ee-1406c567701e","keyword":"自动化","originalKeyword":"自动化"},{"id":"aee85215-7b8f-4a1c-af8f-780dd5789784","keyword":"电镀锡","originalKeyword":"电镀锡"}],"language":"zh","publisherId":"bmjs200003014","title":"铝硅合金自动化电镀锡实践","volume":"29","year":"2000"},{"abstractinfo":"介绍了国内选矿厂破碎、磨矿分级、选别等工艺流程的自动化控制技术应用现状,针对选矿自动化应用中存在的问题,提出了研究及发展的方向.","authors":[{"authorName":"孙云东","id":"42116332-dcc0-4627-9147-3bb1e33da637","originalAuthorName":"孙云东"},{"authorName":"杨金艳","id":"33f8d51e-50f5-4464-8639-8bc596dd7b31","originalAuthorName":"杨金艳"}],"doi":"10.3969/j.issn.1001-1277.2010.04.009","fpage":"35","id":"d783a5d0-5dac-4c0b-b68f-b7cf37ed4921","issue":"4","journal":{"abbrevTitle":"HJ","coverImgSrc":"journal/img/cover/HJ.jpg","id":"44","issnPpub":"1001-1277","publisherId":"HJ","title":"黄金"},"keywords":[{"id":"6948b94c-33df-45e9-a926-643e67ba5751","keyword":"选矿","originalKeyword":"选矿"},{"id":"3c9ccf5c-5936-4087-9980-8335c81498c6","keyword":"自动化","originalKeyword":"自动化"},{"id":"38a18cd0-18fc-4c55-8d71-12da7269717d","keyword":"破碎","originalKeyword":"破碎"},{"id":"e8b5805b-0fb8-4e87-bc5c-f1037dce82a9","keyword":"磨矿分级","originalKeyword":"磨矿分级"},{"id":"9c66f88f-dccb-4899-8e29-17f172588ba6","keyword":"浮选","originalKeyword":"浮选"}],"language":"zh","publisherId":"huangj201004009","title":"国内选矿自动化技术应用及进展","volume":"31","year":"2010"},{"abstractinfo":"利用新型的摩擦电喷镀系统在45钢基体上制备 nano-Al2 O3/Ni 复合镀层.运用 SEM、XRD、EDS、TEM等分析方法对复合镀层的表面形貌、微观结构和组织成分进行表征及分析；并分别利用显微硬度计和摩擦磨损试验机对复合镀层的力学性能和摩擦磨损性能进行表征.实验结果表明,nano-Al2 O3/Ni 复合镀层表面平整均匀,晶粒细小,XRD主峰的晶面指数为(111)和(200),平均晶粒大小为20．8 nm,复合镀层截面组织致密,与基质镍结合紧密,EDS结果显示出复合镀层在共沉积过程中,只有极少部分镍发生氧化.由于摩擦,喷射和纳米颗粒的协同作用,复合镀层产生了硬质颗粒弥散强化,细晶强化和高密度位错强化,导致截面平均硬度达676 Hv；油润滑条件下,复合镀层的主要磨损机制为粘着磨损并伴有微切削.","authors":[{"authorName":"陈晓磊","id":"5995dd39-8384-4e62-b4a4-bfadffc3aaf7","originalAuthorName":"陈晓磊"},{"authorName":"吴斌","id":"501b8c4e-c3a9-402c-b2d5-500ad7720f4e","originalAuthorName":"吴斌"},{"authorName":"郑翔玉","id":"26543c85-724f-4850-83d4-3bc24eaab2e3","originalAuthorName":"郑翔玉"},{"authorName":"梁志杰","id":"72615cb4-d7b1-4d6e-adc0-18e0711580af","originalAuthorName":"梁志杰"}],"doi":"10.3969/j.issn.1001-9731.2016.增刊(Ⅰ).016","fpage":"96","id":"ebea09c5-5848-4d5b-9c93-ae2cabf982f4","issue":"z1","journal":{"abbrevTitle":"GNCL","coverImgSrc":"journal/img/cover/GNCL.jpg","id":"33","issnPpub":"1001-9731","publisherId":"GNCL","title":"功能材料"},"keywords":[{"id":"df27c99b-ae57-48ae-8ce3-0efab328e3a3","keyword":"摩擦电喷镀","originalKeyword":"摩擦电喷镀"},{"id":"32c03792-de74-48ac-a024-30a1f8b6d678","keyword":"复合镀层表征","originalKeyword":"复合镀层表征"},{"id":"5cf456e6-fb31-45a3-8a7d-31b35582e7a8","keyword":"自动化电刷镀","originalKeyword":"自动化电刷镀"},{"id":"8586635a-63bb-4ec4-8071-1b413bc4639b","keyword":"过电位","originalKeyword":"过电位"},{"id":"9556c169-b4db-4584-b764-cf7b627ea8c3","keyword":"位错","originalKeyword":"位错"}],"language":"zh","publisherId":"gncl2016z1016","title":"摩擦电喷镀nano-Al2O3/Ni复合镀层的制备及表征?","volume":"47","year":"2016"},{"abstractinfo":"基于对材料制备技术时代特征的分析,结合材料制备过程自动化领域研究动态的论述,指出了该领域今后的发展趋势及急需解决的几个关键问题.","authors":[{"authorName":"王文明","id":"6dc60a45-9720-4beb-be42-d391c88b999a","originalAuthorName":"王文明"},{"authorName":"钟掘","id":"b4f47fad-ff74-4550-9cab-1ced57cd8fdf","originalAuthorName":"钟掘"},{"authorName":"谭建平","id":"1a298ca2-e0ba-4b13-b96d-ec957043d782","originalAuthorName":"谭建平"}],"doi":"","fpage":"4","id":"f60899c6-efae-4148-b44e-e7f605172e35","issue":"12","journal":{"abbrevTitle":"CLDB","coverImgSrc":"journal/img/cover/CLDB.jpg","id":"8","issnPpub":"1005-023X","publisherId":"CLDB","title":"材料导报"},"keywords":[{"id":"e432f526-825e-453f-bcfb-aaf541ac46e5","keyword":"材料制备","originalKeyword":"材料制备"},{"id":"b3c23984-3fdf-4237-8fc2-4dbbc9dd6187","keyword":"自动化","originalKeyword":"自动化"},{"id":"a8102dff-5769-4913-88b7-759877a4b3f5","keyword":"过程控制","originalKeyword":"过程控制"}],"language":"zh","publisherId":"cldb200112002","title":"现代材料制备过程的自动化技术","volume":"15","year":"2001"},{"abstractinfo":"针对稀土工业生产过程自动化装备水平普遍较低而造成的生产成本高,产品质量一致性差,资源消耗大的问题,提出了实现稀土产品纯度和金属回收率等综合生产指标优化的稀土萃取分离生产过程综合自动化系统,讨论了由生产过程管理系统和过程控制系统两层结构组成的综合自动化系统的体系结构、功能和以萃取分离过程两端出口产品纯度为目标的优化控制策略.将所提出的系统应用于某公司HAB萃取提钇生产过程,实现了稀土萃取过程的优化控制、优化运行和优化管理,取得了显著的应用成效.","authors":[{"authorName":"杨辉","id":"a395f00d-be97-4e57-9d8f-0b8ecc024560","originalAuthorName":"杨辉"},{"authorName":"柴天佑","id":"36ccc44b-40b3-4cf0-8802-87329185ef58","originalAuthorName":"柴天佑"}],"doi":"10.3969/j.issn.0258-7076.2004.06.024","fpage":"1070","id":"84f047d6-4da9-44cc-9e7d-045b12fe4beb","issue":"6","journal":{"abbrevTitle":"XYJS","coverImgSrc":"journal/img/cover/XYJS.jpg","id":"67","issnPpub":"0258-7076","publisherId":"XYJS","title":"稀有金属"},"keywords":[{"id":"05693aa8-ac10-4819-bdb8-be01641e6399","keyword":"稀土","originalKeyword":"稀土"},{"id":"9622a289-8174-4baa-889b-7a84fe38c39e","keyword":"萃取分离","originalKeyword":"萃取分离"},{"id":"38e50281-a7ba-4728-a645-7f53494231ba","keyword":"智能优化控制","originalKeyword":"智能优化控制"},{"id":"9d03152e-4c25-4d90-8f83-64c0d5744ff7","keyword":"综合自动化系统","originalKeyword":"综合自动化系统"}],"language":"zh","publisherId":"xyjs200406024","title":"稀土分离过程综合自动化系统研究","volume":"28","year":"2004"},{"abstractinfo":"随着科学技术的发展,现代矿山企业的自动化、集成化、智能化程度越来越高,接地系统在矿山企业中占据的地位也越来越重要.接地系统不当轻则导致控制系统受到干扰而无法正常工作,重则会导致电缆烧焦甚至引起贵重设备损坏和人员伤亡.从工程技术角度阐述矿山企业低压自动化系统常用接地系统及其在工程应用中出现的一些问题.","authors":[{"authorName":"仓冰南","id":"e8b8f04f-df2f-4965-8315-82c3d8278150","originalAuthorName":"仓冰南"},{"authorName":"郭振宇","id":"774667bf-4172-43c7-8a2d-8d1cf751ebfb","originalAuthorName":"郭振宇"},{"authorName":"王启柏","id":"9b8acafc-1a3d-4a3b-993a-7366a3987f00","originalAuthorName":"王启柏"},{"authorName":"王庆凯","id":"d2029860-4f29-427a-ac56-65bd4d8add93","originalAuthorName":"王庆凯"}],"doi":"10.3969/j.issn.2095-1744.2012.03.008","fpage":"58","id":"072e0f2a-94c6-4dd9-a330-afe419f6cec3","issue":"3","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":"6201ac49-59c8-4527-a226-c5d5cb0a9fe7","keyword":"自动化","originalKeyword":"自动化"},{"id":"5d7dc6a0-7829-47e8-b521-d55bd565b5c6","keyword":"低压接地系统","originalKeyword":"低压接地系统"},{"id":"7f1ce65e-028c-44f2-8d87-4a63b03ffb3f","keyword":"综述","originalKeyword":"综述"},{"id":"ab93e8cd-92cd-4b33-b683-5199fa10beca","keyword":"矿山企业","originalKeyword":"矿山企业"}],"language":"zh","publisherId":"ysjs201203018","title":"矿山自动化控制系统的低压接地","volume":"02","year":"2012"}],"totalpage":3248,"totalrecord":32479}