{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"采用快速凝固雾化技术制备Cu-Ag(质量分数为10%~30%)系列超细铜银合金粉末,再结合化学镀的方法制备了Ag/Cu-Ag包覆粉末.通过扫描电子显微镜(SEM)、X射线衍射(XRD)以及电阻测量等方法对粉末及涂料性能进行表征,检测了涂料的表面电阻、电阻率等.结果表明:银包覆超细铜银合金粉末为球形和近球形、表面致密、镀银层均匀,制作的导电涂料表现出优异的导电性能;并且随着银质量分数的增加,涂料的表面电阻和电阻率减小,趋近于纯银涂料.银包覆超细铜银合金粉末既克服了铜粉易氧化的缺陷,又解决了银粉价格高等问题.还对导电涂料的导电机理、影响因素及应用领域进行了分析和说明.","authors":[{"authorName":"谢明","id":"f8e5ea91-a609-4a62-8774-08d998754ce3","originalAuthorName":"谢明"},{"authorName":"赵玲","id":"1ca7d38a-949c-4bea-81ed-57ed244b0c2a","originalAuthorName":"赵玲"},{"authorName":"杨有才","id":"4f97df62-02de-4e31-a1a0-f48d7e797aca","originalAuthorName":"杨有才"},{"authorName":"陈藜莉","id":"24c48ee2-5285-4737-bb7f-779868c89904","originalAuthorName":"陈藜莉"},{"authorName":"徐云","id":"f5c7437b-d5fb-4206-a98e-59607a5bb5de","originalAuthorName":"徐云"},{"authorName":"张健康","id":"836bbc5a-7a56-4446-9677-8aa910ae8f40","originalAuthorName":"张健康"},{"authorName":"黎玉盛","id":"0b28112d-1447-47e6-b6f4-5969ca874493","originalAuthorName":"黎玉盛"},{"authorName":"黄富春","id":"90285b1f-4015-48b6-aaa0-eae14706f0cd","originalAuthorName":"黄富春"},{"authorName":"陈永泰","id":"8d6620c4-66ab-411f-9432-f32e4ecc7a08","originalAuthorName":"陈永泰"},{"authorName":"刘捷","id":"79cdaa62-a0cd-4511-9409-3ac3e850a02b","originalAuthorName":"刘捷"}],"doi":"10.3969/j.issn.1004-0676.2009.03.005","fpage":"16","id":"92e4a61d-f8aa-44f5-9cbe-6366661c68ad","issue":"3","journal":{"abbrevTitle":"GJS","coverImgSrc":"journal/img/cover/GJS.jpg","id":"38","issnPpub":"1004-0676","publisherId":"GJS","title":"贵金属"},"keywords":[{"id":"d33d989a-03a8-4703-bd6d-bf4678749d3e","keyword":"金属材料","originalKeyword":"金属材料"},{"id":"4e651398-6c74-465a-b1da-3fe8582a8c34","keyword":"粉体材料","originalKeyword":"粉体材料"},{"id":"d7f6e07d-866f-4780-8915-59a7c5633a87","keyword":"银包覆铜银合金粉末","originalKeyword":"银包覆铜银合金粉末"},{"id":"d7bbb438-35b4-4a43-9606-b5404720b465","keyword":"导电涂料","originalKeyword":"导电涂料"},{"id":"f61b75a8-58c5-4c4f-848f-6bb8af3fe683","keyword":"性能","originalKeyword":"性能"},{"id":"4223f41f-1c31-4fab-911b-2878cee4fa0e","keyword":"导电机理","originalKeyword":"导电机理"}],"language":"zh","publisherId":"gjs200903005","title":"高导电特种粉体材料及导电涂料研究","volume":"30","year":"2009"},{"abstractinfo":"Ag-SnO2是中等负荷开关电器用触头材料,合金内氧化是其制备的主要方法之一.在Ag-SnO2的制备中,合金粉未完全内氧化是一个难点,添加金属元素促进合金内氧化的研究一直在进行.本文将稀土元素RE(La、Ce、Y)与Ag、Sn合金化,经雾化得到AgSnRE合金粉,在大气中内氧化后经成型-烧结得到合金坯锭;采用XRD、TGA-DAT等分析合金内氧化过程,并测试了Ag-SnO2-RE2O3的物理力学性能.研究表明,添加RE使AgSn内氧化的起始和结束温度最大下降分别为60℃和30℃,合金组织细化,硬度增加,然而导电率稍有降低.该项研究为AgSn合金粉末内氧化提供了新方法.","authors":[{"authorName":"曹曙光","id":"cf25d3af-7d19-4ef0-8881-8748f91e0ffe","originalAuthorName":"曹曙光"},{"authorName":"谢明","id":"22ddda47-fec3-4d6d-b7b0-a714ed9ff41f","originalAuthorName":"谢明"},{"authorName":"陈力","id":"9977a10e-93e0-4cfe-9c11-857f7e039189","originalAuthorName":"陈力"},{"authorName":"陈江","id":"2ba3d2c7-758e-4c74-bac8-7942a167c66d","originalAuthorName":"陈江"},{"authorName":"宁德魁","id":"95fbbc9d-784e-4c6f-ad21-d7adee7022b5","originalAuthorName":"宁德魁"},{"authorName":"曾荣川","id":"3b0c6703-01e7-4ef1-bc94-5f366e423b6e","originalAuthorName":"曾荣川"},{"authorName":"杨有才","id":"3b229010-10e1-4d1b-866b-e66b38dabd8d","originalAuthorName":"杨有才"},{"authorName":"黎玉盛","id":"4bf682c4-bbb8-467b-95b7-4dac3ab28e5f","originalAuthorName":"黎玉盛"},{"authorName":"张健康","id":"9b70b93e-ffb0-4b3e-b60d-a30f7f725a58","originalAuthorName":"张健康"},{"authorName":"刘莉","id":"f32e245e-518e-4804-8be7-370594daa99d","originalAuthorName":"刘莉"}],"doi":"10.3969/j.issn.1004-0676.2005.01.004","fpage":"17","id":"aa761a6e-4d7b-40bb-bb90-c590abc22d1b","issue":"1","journal":{"abbrevTitle":"GJS","coverImgSrc":"journal/img/cover/GJS.jpg","id":"38","issnPpub":"1004-0676","publisherId":"GJS","title":"贵金属"},"keywords":[{"id":"91f166a8-00eb-4461-acda-9d9203cd989f","keyword":"金属材料","originalKeyword":"金属材料"},{"id":"1677cfe5-2df1-4c52-94bd-e03b7046d074","keyword":"银氧化锡","originalKeyword":"银氧化锡"},{"id":"67077b48-2be3-4ff7-942c-c84b940816c6","keyword":"稀土元素","originalKeyword":"稀土元素"},{"id":"0e34a6f1-b40f-49f2-816a-2fd077a4ba5d","keyword":"触头材料","originalKeyword":"触头材料"},{"id":"adc833ed-734f-4ae8-b8b1-e008f601d3ad","keyword":"组织性能","originalKeyword":"组织性能"}],"language":"zh","publisherId":"gjs200501004","title":"稀土元素在银氧化锡触头材料中作用的研究","volume":"26","year":"2005"},{"abstractinfo":"采用机械合金化等技术,制备了导电性能优异的Ag系、Ag/Cu系、Ag/Ni系粉体材料和电磁屏蔽涂料.粉体材料微细,呈片状;涂料表面电阻、电阻率低,满足使用要求.优异的导电性能使得涂料具有良好的电磁屏蔽性能,复合涂料的电磁屏蔽效能在100 kHz~1.5 GHz频段范围内可达到30 dB~90 dB.对电磁屏蔽涂料的屏蔽效能进行了理论分析.","authors":[{"authorName":"谢明","id":"b39c04f3-c0cf-442b-ab34-b686e92fcfb8","originalAuthorName":"谢明"},{"authorName":"杨有才","id":"1b089656-fb82-47e0-a3d6-81ac38c64b2d","originalAuthorName":"杨有才"},{"authorName":"陈藜莉","id":"16f93f84-0e0a-42e1-a480-d16e511c52e7","originalAuthorName":"陈藜莉"},{"authorName":"徐云","id":"1ec25af4-796a-4c72-ac2b-4f10baf4cb24","originalAuthorName":"徐云"},{"authorName":"张健康","id":"d163d1e2-fdd0-42a0-b1aa-47b6394e51d2","originalAuthorName":"张健康"},{"authorName":"黎玉盛","id":"584afc39-d893-4b93-b226-7e1c36cbfea0","originalAuthorName":"黎玉盛"},{"authorName":"陈永泰","id":"cb666dda-e05e-4de2-b9d1-03d445ddab88","originalAuthorName":"陈永泰"},{"authorName":"崔浩","id":"dca2809b-7c97-4e9b-b9bb-71ffaefb0aa9","originalAuthorName":"崔浩"},{"authorName":"刘满门","id":"f1384095-32d4-4842-9a38-78454119d7f0","originalAuthorName":"刘满门"}],"doi":"10.3969/j.issn.1004-0676.2009.04.002","fpage":"5","id":"060a3e50-1e47-4cab-a0e9-655e1bd651ad","issue":"4","journal":{"abbrevTitle":"GJS","coverImgSrc":"journal/img/cover/GJS.jpg","id":"38","issnPpub":"1004-0676","publisherId":"GJS","title":"贵金属"},"keywords":[{"id":"8f7e1b26-a897-4a0a-a487-17fc1e64cdec","keyword":"金属材料","originalKeyword":"金属材料"},{"id":"7a9d99c8-db63-4fbb-976a-554ff07d4ad4","keyword":"银粉","originalKeyword":"银粉"},{"id":"259a47a4-1319-49fa-a37f-162a0d5c3fe7","keyword":"银/铜复合粉","originalKeyword":"银/铜复合粉"},{"id":"d5ec0299-33a0-43cf-8fb0-ee44a548f962","keyword":"银/镍复合粉","originalKeyword":"银/镍复合粉"},{"id":"73c8ed78-46dd-4a7d-b6a1-99e29cbdb80f","keyword":"电磁屏蔽","originalKeyword":"电磁屏蔽"},{"id":"86b8f3a0-11c5-44a0-80f0-4e6e496b4e30","keyword":"涂料","originalKeyword":"涂料"}],"language":"zh","publisherId":"gjs200904002","title":"电磁屏蔽涂料用银基粉体材料研究","volume":"30","year":"2009"},{"abstractinfo":"对AgCuV合金进行耐磨损性能试验,研究了V颗粒大小及分布形态和不同V含量对AgCuV合金的耐磨性能的影响.研究结果表明:合金中V颗粒细小且弥散均匀以及提高V的含量,有利于提高合金材料的耐磨损性能;AgCuV合金的磨损机理为磨粒磨损和氧化磨损.","authors":[{"authorName":"陈永泰","id":"6e88dd35-2d20-4639-9388-6b87fca6cf8b","originalAuthorName":"陈永泰"},{"authorName":"谢明","id":"ee94fba7-62f1-4530-85b3-55a4f6722347","originalAuthorName":"谢明"},{"authorName":"杨有才","id":"e0fb2438-354a-43e9-9da3-fd00437f7349","originalAuthorName":"杨有才"},{"authorName":"黎玉盛","id":"462a5c5f-b1b6-4780-9646-300ed39573ad","originalAuthorName":"黎玉盛"},{"authorName":"李靖华","id":"1aad3a8b-4363-4920-af57-6c33ae246d53","originalAuthorName":"李靖华"},{"authorName":"张利斌","id":"1bef1606-93e9-4a5d-8ec1-5b538179649b","originalAuthorName":"张利斌"},{"authorName":"崔浩","id":"35e514a4-d435-432d-b2bd-e1d2c42723b6","originalAuthorName":"崔浩"},{"authorName":"刘满门","id":"ef38ad11-3b6a-47aa-82f0-507f3c4520bb","originalAuthorName":"刘满门"}],"doi":"10.3969/j.issn.1004-0676.2010.01.005","fpage":"17","id":"6a6a821e-140a-4f7f-a780-fb4386622c7b","issue":"1","journal":{"abbrevTitle":"GJS","coverImgSrc":"journal/img/cover/GJS.jpg","id":"38","issnPpub":"1004-0676","publisherId":"GJS","title":"贵金属"},"keywords":[{"id":"0537f4e3-2b88-413f-8dfa-b0108da56009","keyword":"金属材料","originalKeyword":"金属材料"},{"id":"b6f1f8ae-3c96-4101-a089-4de64a3b317b","keyword":"银铜钒合金","originalKeyword":"银铜钒合金"},{"id":"a31ced2c-96d3-40b4-9793-a9d979d1b15a","keyword":"耐磨损性能","originalKeyword":"耐磨损性能"},{"id":"cd7415a9-17fe-44f2-a2b5-3243558d521c","keyword":"磨粒磨损","originalKeyword":"磨粒磨损"},{"id":"4986ed59-d533-42d5-a5e1-5561981797bb","keyword":"氧化磨损","originalKeyword":"氧化磨损"}],"language":"zh","publisherId":"gjs201001005","title":"银铜钒合金耐磨损性能研究","volume":"31","year":"2010"},{"abstractinfo":"本文介绍了当前国内外银基电工触头材料的研究应用情况,阐述了电工触头材料的种类、性能及用途,以及在实际应用中的选用原则,指出无镉新材料的研究及新技术开发将成为电工触头材料领域的发展目标.","authors":[{"authorName":"谢明","id":"4cb67bd0-7384-4f18-a3ae-a23245705ad6","originalAuthorName":"谢明"},{"authorName":"杨有才","id":"0addb101-579c-4537-bf42-e13e85e8ee14","originalAuthorName":"杨有才"},{"authorName":"黎玉盛","id":"818a694d-494a-4bf6-a54b-c3e9c574efe3","originalAuthorName":"黎玉盛"},{"authorName":"张健康","id":"d5291b6c-d230-4fd9-8e09-d0a96addf030","originalAuthorName":"张健康"},{"authorName":"符世继","id":"c355e53f-7d15-4383-8369-3835bb10a6e2","originalAuthorName":"符世继"},{"authorName":"陈力","id":"66b7eead-5b22-46ce-8918-9ae36f303b08","originalAuthorName":"陈力"},{"authorName":"曾荣川","id":"f0e55fc7-4acd-4254-8dac-21e86c5d44b8","originalAuthorName":"曾荣川"},{"authorName":"尹长青","id":"0d3f886c-90d3-46fe-9414-aeafb6e3a5f5","originalAuthorName":"尹长青"}],"doi":"10.3969/j.issn.1004-0676.2006.04.012","fpage":"61","id":"becbeefc-816c-4bb7-be33-a6bb69449510","issue":"4","journal":{"abbrevTitle":"GJS","coverImgSrc":"journal/img/cover/GJS.jpg","id":"38","issnPpub":"1004-0676","publisherId":"GJS","title":"贵金属"},"keywords":[{"id":"afcbeb91-989e-4725-9269-e7bde2a9be3a","keyword":"金属材料","originalKeyword":"金属材料"},{"id":"cb4bb0bf-6701-4261-aaa5-e9151c6e0da3","keyword":"电工触头材料","originalKeyword":"电工触头材料"},{"id":"cc4eb56a-54bd-4510-9ef7-72b277e38bab","keyword":"含镉材料","originalKeyword":"含镉材料"},{"id":"a73fb868-6626-4eb7-9f57-338367eb791e","keyword":"新材料","originalKeyword":"新材料"},{"id":"58709168-01ec-4302-a2e0-ddd9364058cd","keyword":"新技术","originalKeyword":"新技术"}],"language":"zh","publisherId":"gjs200604012","title":"常用银基电工触头材料及无镉新材料的开发","volume":"27","year":"2006"},{"abstractinfo":"Ag-SnO2是各国电接触材料研究人员近年来新开发的一种无镉新型触头材料, 它具有较好的导电导热性, 优良的耐热性、抗电弧烧蚀性和抗熔焊性, 是目前代替Ag-CdO的最理想材料. 本文通过合金粉末预氧化法、复合粉体改性处理技术来制备Ag-SnO2-Y2O3电接触材料, 添加稀土后合金粉末容易氧化, 氧化粉体经改性处理后可有效改善氧化物颗粒与银基体间的润湿性、改善材料的后续加工性能, 并且所制备的Ag-SnO2-Y2O3材料密度高、组织均匀、不存在宏观偏析, SnO2和Y2O3颗粒在材料中弥散均匀分布.","authors":[{"authorName":"符世继","id":"3443189a-f9bf-4956-ae5c-ba21f2b12889","originalAuthorName":"符世继"},{"authorName":"谢明","id":"1d7d19d6-2a6e-4e33-a258-2417c96a960e","originalAuthorName":"谢明"},{"authorName":"陈力","id":"35132301-6f65-4eb3-9ad5-ae5547a76009","originalAuthorName":"陈力"},{"authorName":"杨有才","id":"6188bcd8-4289-461b-9643-9184bf1b4285","originalAuthorName":"杨有才"},{"authorName":"黎玉盛","id":"2f0b5dfa-0a7f-4d48-94c7-e0757aa50d75","originalAuthorName":"黎玉盛"},{"authorName":"刘莉","id":"fb3dd628-353a-415f-b7f7-304a41ef6f96","originalAuthorName":"刘莉"}],"doi":"10.3969/j.issn.0258-7076.2005.04.014","fpage":"448","id":"1e5689eb-1a14-434f-8b2a-c1932ce244b9","issue":"4","journal":{"abbrevTitle":"XYJS","coverImgSrc":"journal/img/cover/XYJS.jpg","id":"67","issnPpub":"0258-7076","publisherId":"XYJS","title":"稀有金属"},"keywords":[{"id":"a90f4562-2d69-42ab-9f54-b3afddf10239","keyword":"预氧化","originalKeyword":"预氧化"},{"id":"7077d539-bd91-4457-8270-1d7cc6d06999","keyword":"银氧化锡","originalKeyword":"银氧化锡"},{"id":"df49b6b8-c2b3-4210-8e35-c812e3db1e6b","keyword":"电接触材料","originalKeyword":"电接触材料"},{"id":"129aa69b-af80-4a67-b21e-03fb94fd79c7","keyword":"组织性能","originalKeyword":"组织性能"},{"id":"373de5c0-06ed-4266-8026-d1d02e8b612e","keyword":"稀土","originalKeyword":"稀土"}],"language":"zh","publisherId":"xyjs200504014","title":"合金粉末预氧化法制备Ag-SnO2-Y2O3电接触材料的研究","volume":"29","year":"2005"},{"abstractinfo":"过共晶Al-Si合金具有较高的强度、较低的密度和热膨胀系数、良好的耐磨性和耐蚀性,在汽车、造船、航空航天及其他制造行业广泛应用.但当合金中Si含量太高时,合金组织粗大、偏析严重,同时材料的强度、塑性急剧降低而失去使用价值.喷射成形技术是一种全新的材料制备技术,具有快速凝固技术的基本特征,同时还具有生产工序简单、氧化和污染小等优点,在国外已经在特殊钢、高温合金、铝合金和铜合金等方面进行了产业化应用.但利用喷射成形技术来制备和生产过共晶Al-Si合金材料还很不成熟,有许多问题还没有得到妥善的解决,作者提出两点建议来进一步改善过共晶Al-Si合金材料的性能:(1)在喷射成形过共晶Al-Si合金中添加微量稀土元素;(2)利用喷射共沉积技术制备过共晶Al-Si合金为基体的纤维增强复合材料.","authors":[{"authorName":"符世继","id":"89d76179-2466-4278-9768-9111f73354b0","originalAuthorName":"符世继"},{"authorName":"谢明","id":"4a3e2332-b396-4631-a081-efe32db7f1e0","originalAuthorName":"谢明"},{"authorName":"陈力","id":"df362f1f-5b45-44fb-8bf8-d6f9e3b23553","originalAuthorName":"陈力"},{"authorName":"杨有才","id":"46c9180e-b669-431d-8f72-96ccf273b3a5","originalAuthorName":"杨有才"},{"authorName":"张健康","id":"905e4970-cd56-4c58-bc13-f1ec2d5e34bb","originalAuthorName":"张健康"},{"authorName":"黎玉盛","id":"9f127af4-c067-4a77-ac87-050d7687042d","originalAuthorName":"黎玉盛"}],"doi":"","fpage":"437","id":"7a017d89-3324-4219-a75d-658edc6e075c","issue":"z1","journal":{"abbrevTitle":"CLDB","coverImgSrc":"journal/img/cover/CLDB.jpg","id":"8","issnPpub":"1005-023X","publisherId":"CLDB","title":"材料导报"},"keywords":[{"id":"b4cb21e1-aba3-4bcf-b8d6-bd4c17683004","keyword":"喷射成形","originalKeyword":"喷射成形"},{"id":"fb83308d-8340-4cc3-9c02-82e94919864b","keyword":"过共晶","originalKeyword":"过共晶"},{"id":"d4e45ca2-4c74-459b-af1e-1fc0163caa82","keyword":"Al-Si合金","originalKeyword":"Al-Si合金"},{"id":"18e07f01-71ce-4196-af60-733035b65b27","keyword":"性能","originalKeyword":"性能"}],"language":"zh","publisherId":"cldb2006z1138","title":"喷射成形过共晶Al-Si合金材料的研究现状","volume":"20","year":"2006"},{"abstractinfo":"采用快速凝固离心雾化,原位反应和热挤压成形等工艺技术,制备了Cu/Al2O3复合材料,进行了Cu-Al系列合金粉末原位反应的热力学条件分析,确定了反应温度,研究了粉末成型压力与压坯密度,压坯烧结密度与电导率、硬度的关系,电导率、硬度随烧结时间的变化规律,以及材料显微组织随烧结时间的变化等,并与国内外有关行业制备的同类材料进行了综合性能比较.研究结果表明:Cu/Al2O3复合材料具有良好的物理、力学性能和较高的软化温度,为其生产应用提供了新途径.","authors":[{"authorName":"谢明","id":"6ad7a421-4128-453a-b146-b67ab362d2df","originalAuthorName":"谢明"},{"authorName":"杨有才","id":"3776f0b6-8cf2-494a-a1aa-74ac385d3c16","originalAuthorName":"杨有才"},{"authorName":"张健康","id":"48306dbd-ca1d-4278-a275-5915eaf8f36b","originalAuthorName":"张健康"},{"authorName":"黎玉盛","id":"53a2a4d1-bfe5-4ad4-b083-efccd612e008","originalAuthorName":"黎玉盛"},{"authorName":"符世继","id":"80506483-0797-4c76-8a90-97ff3014b9ae","originalAuthorName":"符世继"},{"authorName":"史庆南","id":"58b868e4-1c32-4c47-b79d-9651de0ff43e","originalAuthorName":"史庆南"}],"doi":"10.3969/j.issn.0258-7076.2007.z1.015","fpage":"59","id":"e61ffb69-78f5-4d09-a6b2-45dc140833a3","issue":"z1","journal":{"abbrevTitle":"XYJS","coverImgSrc":"journal/img/cover/XYJS.jpg","id":"67","issnPpub":"0258-7076","publisherId":"XYJS","title":"稀有金属"},"keywords":[{"id":"245541f8-7067-4b99-90a3-ff6b4b0968fe","keyword":"复合材料","originalKeyword":"复合材料"},{"id":"7d3e8d50-f28d-4634-8c69-ed6f16c8de9d","keyword":"原位反应","originalKeyword":"原位反应"},{"id":"b9867c79-4495-4b2b-aabe-74a2827fb639","keyword":"工艺","originalKeyword":"工艺"},{"id":"dab216ec-00a4-4035-9b48-dc11adae927d","keyword":"性能","originalKeyword":"性能"},{"id":"ad8417a5-0476-45a6-9dbe-ffd0769ef0c5","keyword":"显微组织","originalKeyword":"显微组织"}],"language":"zh","publisherId":"xyjs2007z1015","title":"Cu/Al2O3复合材料的制备工艺、性能和组织研究","volume":"31","year":"2007"},{"abstractinfo":"随着我国化工、材料行业的不断发展,使得对氨氧化用铂合金贵金属催化网技术的要求也越来越高。介绍了铂合金催化网应用状况、铂合金技术发展状况、各种技术的优缺点及铂合金催化网未来发展方向。","authors":[{"authorName":"黎玉盛","id":"88c4e899-561e-484a-8a49-45baa0523ea8","originalAuthorName":"黎玉盛"},{"authorName":"谢宏潮","id":"3b1808d1-4a11-4817-8907-0ebb459fe95d","originalAuthorName":"谢宏潮"},{"authorName":"巫小飞","id":"d4522831-2b1d-4b18-8359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