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kHz,0.5T的工作条件下可以获得更低的剩磁(Br≤0.2T)、损耗(P≤20W/kg)及磁导率,和现有30μm带材制备的变压器磁芯相比降低了变压器的温升,提高了电源效率及运行的稳定性,满足逆变焊机电源变压器高频化、小型化及更安全的设计要求.","authors":[{"authorName":"宋翀旸","id":"78383f17-adfe-47c7-8772-b8f0ed9446fa","originalAuthorName":"宋翀旸"},{"authorName":"时红昊","id":"6e283920-b2b5-4774-875e-ad1ebdd6ef1a","originalAuthorName":"时红昊"},{"authorName":"王立军","id":"91b93b38-46b6-4d9e-9f4b-876c71ad4f68","originalAuthorName":"王立军"},{"authorName":"郑直","id":"0ff773a2-f0a6-4f85-a977-69409cc205b6","originalAuthorName":"郑直"},{"authorName":"杨科","id":"c15f9d47-4f60-473c-8b1d-7999ed0760e3","originalAuthorName":"杨科"}],"doi":"","fpage":"18","id":"2280b0ee-8d34-41df-98c9-f596cd49c3e9","issue":"5","journal":{"abbrevTitle":"JSGNCL","coverImgSrc":"journal/img/cover/JSGNCL.jpg","id":"46","issnPpub":"1005-8192","publisherId":"JSGNCL","title":"金属功能材料"},"keywords":[{"id":"f0eff57c-2b13-448a-a258-8f0d51ac1bd5","keyword":"快速凝固","originalKeyword":"快速凝固"},{"id":"4de9850a-2b19-42e2-87ec-900705b6199d","keyword":"铁基纳米晶","originalKeyword":"铁基纳米晶"},{"id":"124833b5-7702-4c83-a819-2ec1d443d16c","keyword":"变压器铁芯","originalKeyword":"变压器铁芯"},{"id":"20bddc16-9e15-4984-9797-4ddc8e8163eb","keyword":"损耗","originalKeyword":"损耗"}],"language":"zh","publisherId":"jsgncl201305005","title":"铁基纳米晶薄带在大功率变压器铁芯上的应用","volume":"20","year":"2013"},{"abstractinfo":"本文介绍日本为完成1997年\"京都议定书\"对其温室气体减排量的指标要求,大力开发应用超高效节能配电变压器(DT)和铁芯材料的发展情况.","authors":[{"authorName":"陈国钧","id":"7fa98fdf-4232-4ca9-b5c3-2fe169ee375a","originalAuthorName":"陈国钧"},{"authorName":"彭伟锋","id":"b27a0939-35ff-4809-bcac-1047556057fc","originalAuthorName":"彭伟锋"},{"authorName":"桑灿","id":"34500122-8024-4577-b7b7-a3d2a7d4ed3e","originalAuthorName":"桑灿"},{"authorName":"吕建","id":"be988a24-27c6-427e-bdad-47bfd9a126c2","originalAuthorName":"吕建"},{"authorName":"涂国超","id":"905d2e14-3416-46fa-97d0-ca6e49b29dc8","originalAuthorName":"涂国超"},{"authorName":"降向东","id":"799c3e1a-cd38-4e32-8a0e-8ef5eb7d92fb","originalAuthorName":"降向东"},{"authorName":"董哲","id":"15373faf-b81b-49e2-a4f8-9ca77dc97cb9","originalAuthorName":"董哲"}],"doi":"10.3969/j.issn.1005-8192.2007.03.010","fpage":"41","id":"2cb3c524-09f7-4bb4-96d3-7eaa8a6bd3a7","issue":"3","journal":{"abbrevTitle":"JSGNCL","coverImgSrc":"journal/img/cover/JSGNCL.jpg","id":"46","issnPpub":"1005-8192","publisherId":"JSGNCL","title":"金属功能材料"},"keywords":[{"id":"5a43b2a8-370e-4897-81b1-02e7758075bc","keyword":"温室气体","originalKeyword":"温室气体"},{"id":"91ba562a-6816-4dba-8cdd-afec99b5ea10","keyword":"配电变压器","originalKeyword":"配电变压器"},{"id":"2cdbdfe4-3021-4b9e-877d-7b9a096bf148","keyword":"节能","originalKeyword":"节能"},{"id":"2c086e60-baea-4d7d-a022-75c4a6340a00","keyword":"超低铁损铁芯材料","originalKeyword":"超低铁损铁芯材料"}],"language":"zh","publisherId":"jsgncl200703010","title":"高效节能配电变压器的开发和铁芯材料的发展","volume":"14","year":"2007"},{"abstractinfo":"研究了采用1k101非晶带材制作的非晶配电变压器铁芯在不同热处理工艺条件下的性能变化,以期找到较优化的铁芯热处理工艺制度。通过改变铁芯热处理的保温温度和保温时间,得到不同性能的铁芯,得出了较优化的热处理工艺条件为保温温度370~375℃,保温时间60~90min。进一步研究可知,在优化的热处理工艺条件下,较高的环境湿度使铁芯带材表面氧含量高,对应铁芯的损耗也大。初步分析认为是水蒸气诱导氧化增强致使铁芯损耗增大。","authors":[{"authorName":"张亮","id":"9b56ced7-5b01-4dd0-a1d5-dadf6b1869b6","originalAuthorName":"张亮"},{"authorName":"李德仁","id":"d846d648-e9d4-46f0-985b-9a2ae52ffc2e","originalAuthorName":"李德仁"},{"authorName":"宋恩猛","id":"0a1a84e9-1869-4921-a8a4-a8f405663249","originalAuthorName":"宋恩猛"},{"authorName":"卢志超","id":"0e727782-f4ed-4cee-859d-5ae2cfb769e8","originalAuthorName":"卢志超"},{"authorName":"周少雄","id":"8674c893-4829-4821-a563-a204ab87dc1d","originalAuthorName":"周少雄"}],"doi":"","fpage":"39","id":"5d302bf1-3131-48f5-94bf-8ec395112313","issue":"4","journal":{"abbrevTitle":"GTYJXB","coverImgSrc":"journal/img/cover/GTYJXB.jpg","id":"30","issnPpub":"1001-0963","publisherId":"GTYJXB","title":"钢铁研究学报"},"keywords":[{"id":"d4a202f8-0056-4fbd-a7df-811eda9b3aeb","keyword":"非晶","originalKeyword":"非晶"},{"id":"1bed6d43-6658-4159-b659-a49e6b40e458","keyword":"铁芯","originalKeyword":"铁芯"},{"id":"e56f4d34-73b0-4c73-aab3-3f9fa35d1287","keyword":"热处理","originalKeyword":"热处理"}],"language":"zh","publisherId":"gtyjxb201204009","title":"非晶配电变压器铁芯的热处理工艺","volume":"24","year":"2012"},{"abstractinfo":"研究了采用1k101非晶带材制作的非晶配电变压器铁芯在不同热处理工艺条件下的性能变化,以期找到较优化的铁芯热处理工艺制度。通过改变铁芯热处理的保温温度和保温时间,得到不同性能的铁芯,得出了较优化的热处理工艺条件为保温温度370~375℃,保温时间60~90min。进一步研究可知,在优化的热处理工艺条件下,较高的环境湿度使铁芯带材表面氧含量高,对应铁芯的损耗也大。初步分析认为是水蒸气诱导氧化增强致使铁芯损耗增大。","authors":[{"authorName":"张亮,李德仁,宋恩猛,卢志超,周少雄","id":"91efca52-a5f5-4704-9892-ffd68e3e816b","originalAuthorName":"张亮,李德仁,宋恩猛,卢志超,周少雄"}],"categoryName":"|","doi":"","fpage":"39","id":"7a8a0f98-5c09-4a2f-b945-96bc8f6c0f3c","issue":"4","journal":{"abbrevTitle":"GTYJXB","coverImgSrc":"journal/img/cover/GTYJXB.jpg","id":"30","issnPpub":"1001-0963","publisherId":"GTYJXB","title":"钢铁研究学报"},"keywords":[{"id":"8d658ea0-0884-4673-b58e-a78db2c399c1","keyword":"非晶 ","originalKeyword":"非晶 "},{"id":"46401c73-d139-4c90-b178-f7f1a51de7dc","keyword":" core ","originalKeyword":" core "},{"id":"7c9767b6-2a90-462a-8e66-7e1b62777d58","keyword":" heat processing","originalKeyword":" heat processing"}],"language":"zh","publisherId":"1001-0963_2012_4_7","title":"非晶配电变压器铁芯的热处理工艺","volume":"24","year":"2012"},{"abstractinfo":"研究了FeSiBCuNb合金纳米晶铁芯固化成型方式在功率变压器上的应用,通过研究24μm和30 μm不同厚度带材、固化剂等对变压器铁芯成型前后性能的影响,结果表明,24μm带材可以获得更低的损耗,铁芯固化成型后损耗明显增加,导磁率变化不大,能够满足现有环形护盒铁芯在20 kHz,0.5T条件下损耗小于30 W/kg的要求,探索出新型的纳米晶功率变压器铁芯成型方式,为高频电源变压器的设计及后期线包的绕制提供了更多的选择方案.","authors":[{"authorName":"宋翀旸","id":"5017ce37-111f-4c89-bf15-484978f703ff","originalAuthorName":"宋翀旸"},{"authorName":"时红昊","id":"86b4ea8b-c2ee-40f0-9802-0f3ceb3999df","originalAuthorName":"时红昊"},{"authorName":"王立军","id":"7231f123-8470-424a-8a17-60e6edf0b852","originalAuthorName":"王立军"},{"authorName":"杜宇","id":"b4544a89-e464-42c4-b228-f566fed1999c","originalAuthorName":"杜宇"}],"doi":"","fpage":"32","id":"37f5a130-f688-4a16-b334-ea2bc09c48c4","issue":"4","journal":{"abbrevTitle":"JSGNCL","coverImgSrc":"journal/img/cover/JSGNCL.jpg","id":"46","issnPpub":"1005-8192","publisherId":"JSGNCL","title":"金属功能材料"},"keywords":[{"id":"cbb4c8dc-2cce-46e7-a691-16ce8b1da3fe","keyword":"纳米晶软磁材料","originalKeyword":"纳米晶软磁材料"},{"id":"20169512-2660-4369-8e54-ae8c7c36438a","keyword":"固化","originalKeyword":"固化"},{"id":"ac6c4352-de32-4be8-a523-ca6bab689a13","keyword":"功率变压器铁芯","originalKeyword":"功率变压器铁芯"},{"id":"9c87ba1d-9d41-45c9-a6d6-1b5eda3340c6","keyword":"损耗","originalKeyword":"损耗"}],"language":"zh","publisherId":"jsgncl201304007","title":"纳米晶薄带固化成型铁芯在中高频功率变压器上的应用","volume":"20","year":"2013"},{"abstractinfo":"采用宽度低的国产非晶合金带材制成铁芯后沿着带材宽度方向叠加成为高度合适的铁芯,并对其进行线切割,研究了铁芯切缝处的结构、形貌及切割前后工频下的磁性能。结果表明,线切割后切缝处结构由非晶态向晶态发生转变;切割后不改变铁芯的饱和磁感应强度,但磁化困难,损耗增加,铁芯切割后在B=1.3T,f=50Hz下的励磁容量由切割前0.32VA/kg增加到7.70VA/kg,损耗值由0.16W/kg增加到0.30W/kg;铁芯叠加不影响其磁性能,此法适用于制备非晶合金变压器。","authors":[{"authorName":"尹镭","id":"c266813b-d579-4259-8632-023485ec728b","originalAuthorName":"尹镭"},{"authorName":"朱正吼","id":"dc118102-f7c1-459b-a4a5-5262a82759dd","originalAuthorName":"朱正吼"},{"authorName":"刘吉磊","id":"4578f4cc-95d7-4c81-b73e-3f294f713efa","originalAuthorName":"刘吉磊"},{"authorName":"胡琴","id":"59bec0ae-7979-49b6-b34f-d8c1fa6f34ce","originalAuthorName":"胡琴"}],"doi":"","fpage":"1899","id":"38fbf294-0646-429c-9038-449031e2c67a","issue":"14","journal":{"abbrevTitle":"GNCL","coverImgSrc":"journal/img/cover/GNCL.jpg","id":"33","issnPpub":"1001-9731","publisherId":"GNCL","title":"功能材料"},"keywords":[{"id":"c4855ef6-4ead-42ac-8cb2-6c093cfa456c","keyword":"非晶变压器","originalKeyword":"非晶变压器"},{"id":"8149627f-4f62-4322-a9ef-2443911424cd","keyword":"叠加","originalKeyword":"叠加"},{"id":"a0280252-9138-414f-b85d-f318f9525ea6","keyword":"切割","originalKeyword":"切割"},{"id":"bd7cbb8f-957b-4def-9b5a-db837ebbc16c","keyword":"磁性能","originalKeyword":"磁性能"}],"language":"zh","publisherId":"gncl201214021","title":"非晶合金变压器铁芯制备及性能研究","volume":"43","year":"2012"},{"abstractinfo":"介绍分析并评述了美国Allied Signal公司于1999年公开的用于配电变压器铁芯的最新非晶合金,Metglas2605SA-1牌号的具体成分、性能特点及热处理方法.","authors":[{"authorName":"李志华","id":"2d630804-2f74-4ec4-b9b1-0ecf5314486b","originalAuthorName":"李志华"}],"doi":"10.3969/j.issn.1005-8192.2001.05.007","fpage":"34","id":"7b0f7de0-0314-48b2-9e1d-65acd1dd147d","issue":"5","journal":{"abbrevTitle":"JSGNCL","coverImgSrc":"journal/img/cover/JSGNCL.jpg","id":"46","issnPpub":"1005-8192","publisherId":"JSGNCL","title":"金属功能材料"},"keywords":[{"id":"d997e6aa-1d60-4bbf-b68f-4ea53640856b","keyword":"非晶合金","originalKeyword":"非晶合金"},{"id":"0579ca9a-59d8-4396-8816-07c9240fdb51","keyword":"配电变压器","originalKeyword":"配电变压器"},{"id":"c9e2f0a8-9de5-4a21-8a2b-4862ad9be3e8","keyword":"铁基合金","originalKeyword":"铁基合金"}],"language":"zh","publisherId":"jsgncl200105007","title":"用于配电变压器铁芯的具有高工作磁感的非晶合金","volume":"8","year":"2001"},{"abstractinfo":"介绍了防腐变压器的涂装工艺过程,分析了影响涂装质量的各因素.","authors":[{"authorName":"俞高波","id":"55444e59-3a80-41a2-afc0-e618f7da79a8","originalAuthorName":"俞高波"}],"doi":"10.3969/j.issn.1004-227X.2001.05.016","fpage":"49","id":"8ee9dda9-8311-4d47-a6af-69875ccd2f71","issue":"5","journal":{"abbrevTitle":"DDYTS","coverImgSrc":"journal/img/cover/DDYTS.jpg","id":"21","issnPpub":"1004-227X","publisherId":"DDYTS","title":"电镀与涂饰 "},"keywords":[{"id":"e6dba0b2-e71c-4d30-b60e-250021af4297","keyword":"变压器","originalKeyword":"变压器"},{"id":"d6f30b99-fe1c-4495-9c58-1f6f518d7820","keyword":"防腐","originalKeyword":"防腐"},{"id":"f591b4da-5b69-496e-9778-8adf898a2d59","keyword":"涂装","originalKeyword":"涂装"}],"language":"zh","publisherId":"ddyts200105016","title":"防腐变压器的涂装","volume":"20","year":"2001"},{"abstractinfo":"介绍了电力变压器的常见故障及几种在线检测技术,分析了铁芯多点接地故障对变压器的危害性,并提出了消除故障的有效措施.","authors":[{"authorName":"李江华","id":"5bfb63d8-f04e-4159-a4b8-93a7623208dc","originalAuthorName":"李江华"},{"authorName":"朱焕杰","id":"70829a11-6b0b-420a-97d9-96dd53d5b238","originalAuthorName":"朱焕杰"}],"doi":"10.3969/j.issn.1009-9239.2008.05.018","fpage":"72","id":"80648bb2-5e75-43df-b072-979cbb637d4e","issue":"5","journal":{"abbrevTitle":"JYCL","coverImgSrc":"journal/img/cover/JYCL.jpg","id":"50","issnPpub":"1009-9239","publisherId":"JYCL","title":"绝缘材料"},"keywords":[{"id":"f31a69c0-268d-493d-aa3f-19f81cd407f6","keyword":"电力变压器","originalKeyword":"电力变压器"},{"id":"900acf43-93b7-4d9f-801a-79ce106706e9","keyword":"故障","originalKeyword":"故障"},{"id":"8a11fc6a-0a11-4d4c-86a8-4d8c739b57b4","keyword":"检测","originalKeyword":"检测"}],"language":"zh","publisherId":"jycltx200805018","title":"电力变压器常见故障及在线检测技术","volume":"41","year":"2008"},{"abstractinfo":"近年来随着压电变压器新材料的不断发现,新工艺的不断产生,其应用领域在不断拓宽,压电变压器开始进入一个大规模实用开发的新阶段.本文对目前压电变压器的主要形式及工作原理作了较为详尽的分析和阐述,并对压电陶瓷变压器的基本构成、制备工艺过程、目前使用领域以及将来应用前景作了介绍,指出了压电变压器今后发展的方向及有待解决的问题.","authors":[{"authorName":"张卫珂","id":"0ea3fcb6-3f32-474f-8128-a139db62ccd3","originalAuthorName":"张卫珂"},{"authorName":"尹衍升","id":"9ce31563-94a2-4ca7-9fc1-ec402cb14a9a","originalAuthorName":"尹衍升"},{"authorName":"谭训彦","id":"95e26785-0973-49c9-8757-49b4dbba5bc0","originalAuthorName":"谭训彦"},{"authorName":"张敏","id":"7202e6d5-b35e-483f-9028-716135866d04","originalAuthorName":"张敏"}],"doi":"10.3969/j.issn.1001-1625.2004.06.022","fpage":"84","id":"39d9d476-8eee-4c41-b004-92e300234894","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":"8a997a53-13a0-4b42-9274-85d48651a84a","keyword":"压电陶瓷变压器(PECT) 压电效应 工作原理","originalKeyword":"压电陶瓷变压器(PECT) 压电效应 工作原理"}],"language":"zh","publisherId":"gsytb200406022","title":"压电陶瓷变压器的研究","volume":"23","year":"2004"}],"totalpage":1043,"totalrecord":10422}