{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"利用HDDR技术研究了NdFeCoBZrGa合金的磁性能.研究了HD处理温度对合金磁粉磁性能和DOA的影响规律;研究了DR处理温度对合金磁粉磁性能和DOA的影响规律;研究了合金成分对合金磁粉磁性能和DOA的影响规律.结果表明:通过适当工艺的调整,成功制备出高性能、高各向异性粘结磁体磁粉.对于成分为Nd13FgbalCo17B6 5Zr01Ga10的合金,其磁性能达到:iHc=817.6kA/m,Br=1.18T,(BH)max=244kJ/m3,其取向度DOA达到0.56.","authors":[{"authorName":"连法增","id":"5708d1e2-1e5e-444f-9c4f-c4ebc88b6373","originalAuthorName":"连法增"},{"authorName":"金海洋","id":"f2789686-6e45-45a5-a0a7-ccf8df254de6","originalAuthorName":"金海洋"},{"authorName":"付猛","id":"2a3ac06d-f6cf-4ed0-9f0e-bdd01808849e","originalAuthorName":"付猛"},{"authorName":"孙东生","id":"45e5be95-2b0d-4d3b-8dff-7f7c9d91eb98","originalAuthorName":"孙东生"},{"authorName":"王继杰","id":"0cd5a1d8-35f3-410f-8dd0-fc03dca3b5dd","originalAuthorName":"王继杰"},{"authorName":"玉兰","id":"bc761453-c242-4427-91e5-1b61a1d86a4f","originalAuthorName":"陈玉兰"},{"authorName":"裴文利","id":"215a28cf-3b10-4fa9-a6c6-0c80aee4c2cb","originalAuthorName":"裴文利"},{"authorName":"金钟悟","id":"e521b55f-a5bf-4054-a89b-a67803f08936","originalAuthorName":"金钟悟"}],"doi":"","fpage":"489","id":"c3a8c225-f54b-4f04-b358-706c4b27bd9f","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":"44dcafc7-af43-4391-a0c8-1386e1bcac91","keyword":"HDDR","originalKeyword":"HDDR"},{"id":"c6ba1130-e45c-4ac5-b7a5-388a322742f2","keyword":"研究","originalKeyword":"研究"},{"id":"97132a13-74d2-4251-9ef8-5a5fa9528c38","keyword":"高磁性能","originalKeyword":"高磁性能"},{"id":"1441de14-1f92-4197-aa27-836ecabd4b26","keyword":"高各向异性","originalKeyword":"高各向异性"}],"language":"zh","publisherId":"gncl2004z1126","title":"HDDR技术制备高性能稀土永磁磁粉研究","volume":"35","year":"2004"},{"abstractinfo":"研究了微量合金元素Nb的添加对Fe3B/Nd2Fe14B型纳米复合永磁体微观结构与磁性能的影响规律.结果表明,添加Nb元素可以稳定非晶相,阻碍Fe3B粒子的结晶动力学.Nd5.5Fe70.0Co5Cu0.5Nb0.5B18.5非晶合金在640℃退火处理30min可获得最佳磁性能:Br=1.05T,jHc=367kA/m,(BH)max=80.2kJ/m3.Nb与Cu的复合添加对Fe3B晶粒的细化效果更显著;Nb元素的添加可以提高合金的磁性能,但添加量必须适中.","authors":[{"authorName":"付猛","id":"3676cd0a-c4f9-42ba-b088-96d778b193f5","originalAuthorName":"付猛"},{"authorName":"连法增","id":"7b9c49ba-a58f-4618-af01-c7a8b35efee5","originalAuthorName":"连法增"},{"authorName":"王继杰","id":"3b64a5b8-3dee-4c7a-99e6-3a45243c5618","originalAuthorName":"王继杰"},{"authorName":"裴文利","id":"456d995c-4355-4d95-933e-77eaf7f74939","originalAuthorName":"裴文利"},{"authorName":"玉兰","id":"e1410bab-9a46-44ae-a908-a6403f821731","originalAuthorName":"陈玉兰"},{"authorName":"杜宇","id":"6b74f9a4-2f91-48fe-b7dd-524bd72bbe45","originalAuthorName":"杜宇"},{"authorName":"杨洪才","id":"1f99dfd3-aee1-4e35-bc3a-875f6a2f1800","originalAuthorName":"杨洪才"}],"doi":"","fpage":"184","id":"1489a0f6-8345-4eec-9945-11d612e29330","issue":"2","journal":{"abbrevTitle":"GNCL","coverImgSrc":"journal/img/cover/GNCL.jpg","id":"33","issnPpub":"1001-9731","publisherId":"GNCL","title":"功能材料"},"keywords":[{"id":"5e4469ff-e346-4a1c-ac70-dfd02a1a2734","keyword":"Nd2Fe14B","originalKeyword":"Nd2Fe14B"},{"id":"4ca79b28-3b8d-4f81-b06c-98f82d87b9b7","keyword":"Fe3B","originalKeyword":"Fe3B"},{"id":"9eaa7853-9027-4c2f-a7ae-abb2a6bcbd7d","keyword":"磁性能","originalKeyword":"磁性能"},{"id":"9ce75936-a0b4-4e2b-934a-14ab0a06847f","keyword":"纳米永磁","originalKeyword":"纳米永磁"}],"language":"zh","publisherId":"gncl200502007","title":"Nb的添加对Fe3B/Nd2Fe14B纳米永磁体磁性能与微观结构的影响","volume":"36","year":"2005"},{"abstractinfo":"主要研究了添加Cr置换Nd5Fe72.3Cu0.2Co4B18.5合金中的Co元素对Fe3B/Nd2Fe14B型纳米复合永磁体磁性能与微观结构的影响.结果表明:相应于Co元素而言,添加Cr元素可有效细化NdFeB合金软、硬磁性相的晶粒尺寸;随退火温度的升高,添加Cr元素的Nd5Fe72.3Cu0.2Cr4B18.5合金的jHc值随退火温度的变化不明显.DTA曲线分析表明,NdFeCuCoB具有一个放热峰,而NdFeCuCrB具有两个放热峰.NdFeCuCrB非晶合金在650℃退火处理30min可获得最佳磁性能:Br=0.944T,jHc=383kA/m,(BH)max=77.5kJ/m3.","authors":[{"authorName":"付猛","id":"f7926111-1222-44a6-818b-c4be5e3a641d","originalAuthorName":"付猛"},{"authorName":"连法增","id":"f08ec669-e417-416b-a8ca-77e6d4ecba0e","originalAuthorName":"连法增"},{"authorName":"王继杰","id":"dc8cbb23-ab97-4cbb-aa9b-6542ba1f0382","originalAuthorName":"王继杰"},{"authorName":"裴文利","id":"7673c587-ad39-4f4c-846a-a3fff3cea1a7","originalAuthorName":"裴文利"},{"authorName":"玉兰","id":"f4f52b8e-4e7a-4163-8202-a7e48f2f9c2d","originalAuthorName":"陈玉兰"},{"authorName":"杜宇","id":"5f9492f3-1f23-46dd-b3d9-06c3652b091d","originalAuthorName":"杜宇"},{"authorName":"杨洪才","id":"2c3d781c-f1da-4694-bf58-e3bd21b902a4","originalAuthorName":"杨洪才"}],"doi":"","fpage":"687","id":"9794e48a-d32b-4d61-9240-ad53d5e0dbea","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":"aaa13936-1f84-4633-a42c-9ba4260a2cc6","keyword":"Nd2Fe14B","originalKeyword":"Nd2Fe14B"},{"id":"fb268ee2-73ac-4ef9-bdfc-0b72b019fe98","keyword":"Fe3B","originalKeyword":"Fe3B"},{"id":"54be01e1-f0f5-4b76-9255-8df9155df10a","keyword":"磁性能","originalKeyword":"磁性能"},{"id":"e4e8cb36-6dca-4a36-84b9-6a2dd1dc0a53","keyword":"纳米永磁","originalKeyword":"纳米永磁"}],"language":"zh","publisherId":"gncl2004z1189","title":"Cr替代Co对Fe3B/Nd2Fe14B纳米复合磁体微观结构与磁性能的影响","volume":"35","year":"2004"},{"abstractinfo":"利用阳极氧化法和电沉积法制备CdS修饰的TiO2纳米管阵列.应用FE-SEM、XRD、DRS和LSV(线性伏安扫描)对该阵列的形貌、晶型、光学性质和光电性能进行表征,并研究该阵列降解亚甲基蓝的光电催化活性.结果表明,CdS以颗粒形式存在于TiO2纳米管阵列表面,CdS/TiO2纳米管阵列在可见光处有较强吸收,有较大光响应电流,其光电催化活性优于纯TiO2纳米管阵列.","authors":[{"authorName":"凌世盛","id":"33606a74-3723-424e-973e-d1c34e2299cf","originalAuthorName":"凌世盛"},{"authorName":"王玲","id":"de5ddcc3-a739-473b-8246-f2f16cebacda","originalAuthorName":"王玲"},{"authorName":"薛建军","id":"36e71d19-a8d0-404d-9126-ed575ba6eb75","originalAuthorName":"薛建军"},{"authorName":"王兆崴","id":"f403adf5-fa45-4eae-ad60-c910c1ce01b3","originalAuthorName":"王兆崴"},{"authorName":"孔令国","id":"407d2d6b-4376-44ed-aa90-d0b4c3b1d67e","originalAuthorName":"孔令国"},{"authorName":"杨慧","id":"5dbe2db4-8154-47b1-86ac-c9f3923a424a","originalAuthorName":"杨慧"},{"authorName":"玉兰","id":"4fe28fee-9154-4d9b-9df2-e689b529c1d9","originalAuthorName":"陈玉兰"}],"doi":"","fpage":"1911","id":"afbd7600-3856-41db-85bf-7ad9827e4fef","issue":"11","journal":{"abbrevTitle":"GNCL","coverImgSrc":"journal/img/cover/GNCL.jpg","id":"33","issnPpub":"1001-9731","publisherId":"GNCL","title":"功能材料"},"keywords":[{"id":"0746e1d5-2796-4728-87ce-cad982119388","keyword":"TiO2纳米管","originalKeyword":"TiO2纳米管"},{"id":"a3b94266-fb6f-4773-a039-d14bc841a7fb","keyword":"CdS","originalKeyword":"CdS"},{"id":"cf6debcd-1490-4657-ba52-f5333955da38","keyword":"亚甲基蓝","originalKeyword":"亚甲基蓝"},{"id":"01124b6d-63ad-411f-899e-fe2f310f6957","keyword":"阳极氧化","originalKeyword":"阳极氧化"}],"language":"zh","publisherId":"gncl201011015","title":"CdS/TiO2纳米管阵列的制备及其光电催化活性研究","volume":"41","year":"2010"},{"abstractinfo":"模压成型制备Fe-Si-Al复合磁粉芯,研究了热处理条件及绝缘包覆处理对复合磁粉芯磁性能的影响.实验结果表明:压制后的退火处理能够有效地提高Fe-Si-Al磁粉芯的磁性能;增加退火温度能够提高样品的有效磁导率,减少磁滞损耗;过高的退火温度(>660℃) 能够恶化粒子间的绝缘层,降低磁特性;Fe-Si-Al磁粉芯的最佳退火温度为660℃.磁退火处理是降低Fe-Si-Al磁粉芯损耗的一种有效的新方法,与退火处理相比磁退火处理能够更大幅度的降低Fe-Si-Al磁粉芯的损耗.增加绝缘剂添加量能够有效地降低Fe-Si-Al磁粉芯的涡流损耗,同时也会产生恶化复数磁导率实数部分的负面影响,Fe-Si-Al磁粉芯最佳的绝缘剂添加量为0.7%(质量分数).","authors":[{"authorName":"李庆达","id":"4c232717-259a-41e5-b2c3-5d55354e1436","originalAuthorName":"李庆达"},{"authorName":"连法增","id":"5d4326a2-cab5-47c3-85b7-8d4fc5502245","originalAuthorName":"连法增"},{"authorName":"尤俊华","id":"7237a61e-bbbf-461f-8938-49dd375908e9","originalAuthorName":"尤俊华"},{"authorName":"孙陨","id":"f09dcc36-f41a-4814-8092-5a7f98b4bfd4","originalAuthorName":"孙陨"},{"authorName":"玉兰","id":"7d024084-ef99-4c73-a8f1-bd6e49899ede","originalAuthorName":"陈玉兰"}],"doi":"10.3969/j.issn.1001-4381.2011.02.014","fpage":"65","id":"28192e38-898c-4725-b3f4-e6f82ab2a5ab","issue":"2","journal":{"abbrevTitle":"CLGC","coverImgSrc":"journal/img/cover/CLGC.jpg","id":"9","issnPpub":"1001-4381","publisherId":"CLGC","title":"材料工程"},"keywords":[{"id":"a7f2a2bb-8519-4f6e-a0c0-f5c1fab55717","keyword":"磁粉芯","originalKeyword":"磁粉芯"},{"id":"0bb27db9-c33f-4de5-aac9-3f5e889954c9","keyword":"损耗","originalKeyword":"损耗"},{"id":"c5bdc6d0-b66c-4876-b943-1fdb501e8a3a","keyword":"退火","originalKeyword":"退火"},{"id":"7f0aef1e-e7f2-4157-8f4e-7354641e3b61","keyword":"复数磁导率","originalKeyword":"复数磁导率"}],"language":"zh","publisherId":"clgc201102014","title":"Fe-Si-Al复合磁粉芯制备工艺的研究","volume":"","year":"2011"},{"abstractinfo":"研究了防氧化剂的添加对Nd13.6Dy0.39Tb0.14FecalAl0.8B625的烧结永磁体的微观结构与磁性能的影响规律.结果表明,添加一定量防氧化剂后的主相晶粒尺寸较小且较为均匀,晶界清晰,空隙及缺陷较少.由于磁体微结构的改善,磁体的性能得到了较大的提高.同时发现防氧化剂复合添加的方式对磁性能的效果优于球磨或气流磨时单独添加防氧化剂时的效果.","authors":[{"authorName":"玉兰","id":"b492a7a7-6253-4aa0-ac96-3b8eebb886e7","originalAuthorName":"陈玉兰"},{"authorName":"连法增","id":"ee9b32e4-e6f8-430f-95d2-6eedf223379e","originalAuthorName":"连法增"},{"authorName":"裴文利","id":"09dc1c23-4055-4299-8872-4284ac8309aa","originalAuthorName":"裴文利"},{"authorName":"付猛","id":"b799987e-bff0-4aeb-aeb3-439d3ac48caa","originalAuthorName":"付猛"},{"authorName":"雪奇","id":"fdb94f5a-65cc-4b9c-82d7-9d82fd257037","originalAuthorName":"陈雪奇"}],"doi":"","fpage":"738","id":"63705f46-2da3-4126-a2e4-deea169e23a7","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":"9d4e6a86-0d08-4113-bcdd-2181453ec8a9","keyword":"NdFeB磁体","originalKeyword":"NdFeB磁体"},{"id":"d151b9ca-ec0b-478c-ad7c-1d7241eaf32d","keyword":"防氧化剂","originalKeyword":"防氧化剂"},{"id":"a714602d-f34c-49b2-9e4e-64f048c375b9","keyword":"微观结构","originalKeyword":"微观结构"}],"language":"zh","publisherId":"gncl2004z1205","title":"防氧化剂对烧结NdFeB永磁性能的影响","volume":"35","year":"2004"},{"abstractinfo":"","authors":[{"authorName":"聂毓秀","id":"4e970cfc-4b6e-4056-ab3d-4bf603c0ce97","originalAuthorName":"聂毓秀"},{"authorName":"玉兰","id":"dd42f4f6-5f91-45f6-b192-ed47303f0239","originalAuthorName":"陈玉兰"}],"doi":"","fpage":"58","id":"6e8dcf34-3b1d-4855-8d42-cd25910b9fe2","issue":"4","journal":{"abbrevTitle":"ZGXTXB","coverImgSrc":"journal/img/cover/ZGXTXB.jpg","id":"86","issnPpub":"1000-4343","publisherId":"ZGXTXB","title":"中国稀土学报"},"keywords":[{"id":"48e89f3b-65c8-49bc-bcfc-b943086dd63a","keyword":"","originalKeyword":""}],"language":"zh","publisherId":"zgxtxb198904012","title":"镧、钐、铕及镱化合物对体外培养HeLa细胞的作用","volume":"","year":"1989"},{"abstractinfo":"采用水热合成法制备了纳米二氧化钛溶胶,通过XRD、TEM和FT-Raman对所得溶胶中纳米粒子的晶形、大小及形貌进行了表征,并探讨了该溶胶对大肠杆菌和金黄色葡萄球菌的抗抑性能以及对原代培养的小鼠腹腔巨噬细胞的毒性效应.结果表明,所得溶胶中纳米二氧化钛粒子均为梭形锐钛型纳米二氧化钛,宽平均为20nm,长平均为100nm.溶胶对大肠杆茵和金黄色葡萄球茵的抑菌率在作用4h后均达到90%以上,抑茵率达到90%以上的溶胶质量浓度为1000mg/L.溶胶加入细胞培养液中后能明显影响巨噬细胞的生长形态,24h后巨噬细胞都呈现出不同程度的回缩变形,细胞间隙增大,巨噬细胞内颗粒物随纳米TiO2颗粒浓度的升高而增多,细胞折光性下降;在24h内对巨噬细胞的生长具有一定的增殖作用,在48h内都呈现一定的抑制作用,且存在剂量-效应关系,随着纳米TiO2浓度的升高,其对巨噬细胞的生长抑制越显著.","authors":[{"authorName":"何娉婷","id":"7197504a-4ca0-464c-8a79-a118db34320f","originalAuthorName":"何娉婷"},{"authorName":"陶杰","id":"6ab006b4-90fc-465c-8161-ea5ad6ade2d6","originalAuthorName":"陶杰"},{"authorName":"薛建军","id":"8935cd89-365a-462c-9f81-61d8905851dc","originalAuthorName":"薛建军"},{"authorName":"玉兰","id":"0e01d77b-9420-4cba-8b58-55e0ded9a0f9","originalAuthorName":"陈玉兰"}],"doi":"","fpage":"22","id":"afd6e377-ab02-493d-8598-b7f3391fa8ac","issue":"8","journal":{"abbrevTitle":"CLDB","coverImgSrc":"journal/img/cover/CLDB.jpg","id":"8","issnPpub":"1005-023X","publisherId":"CLDB","title":"材料导报"},"keywords":[{"id":"02f8619a-ba5e-4485-aa2f-f0b151ea2311","keyword":"纳米二氧化钛溶胶","originalKeyword":"纳米二氧化钛溶胶"},{"id":"3e80e251-bf9c-49ee-a2e6-9e790e413dce","keyword":"抗菌性能","originalKeyword":"抗菌性能"},{"id":"5f9ef760-9970-4358-b73d-2d09d167d930","keyword":"细胞毒性","originalKeyword":"细胞毒性"}],"language":"zh","publisherId":"cldb201108007","title":"梭形纳米二氧化钛溶胶的制备及其抗菌性能和细胞毒性","volume":"25","year":"2011"},{"abstractinfo":"研究了添加微量元素Al对HDDR工艺制备各向异性Nd-Fe-Co-B-Al系永磁磁粉的磁性能和磁粉结构的影响.其结果表明:Al的加入可以显著地提高材料的矫顽力和最大磁能积.使磁体获得高矫顽力的原因是添加元素Al可以细化晶粒,还能使反磁化畴难以形核.添加Al有\"结构记忆\"(Structure Memory)效应,有利于制备各向异性的磁粉.","authors":[{"authorName":"廖达前","id":"d7d6da7a-69f5-469f-9c13-2eaf8cf85b7b","originalAuthorName":"廖达前"},{"authorName":"连法增","id":"acb6bbaf-07bc-47ea-9a8b-d69164a2f850","originalAuthorName":"连法增"},{"authorName":"王继杰","id":"90f3c56e-9d82-45bd-bb06-05d952632ec0","originalAuthorName":"王继杰"},{"authorName":"付猛","id":"c19c6b2b-a4e7-4eea-9cb1-ed392253ef09","originalAuthorName":"付猛"},{"authorName":"玉兰","id":"4e0410ff-1b9a-48c1-be48-21314bb63f5a","originalAuthorName":"陈玉兰"},{"authorName":"成昭华","id":"c6a9cc9d-b82c-4eb4-b242-9b0300f6fdc5","originalAuthorName":"成昭华"}],"doi":"","fpage":"690","id":"b2a1b183-c4ae-41b3-9bc4-20d735d45a9e","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":"52b85889-78a3-4ea8-bba7-d01b58fcd053","keyword":"HDDR工艺","originalKeyword":"HDDR工艺"},{"id":"85e6fe62-17cd-4e5c-94e3-1462f3bf5602","keyword":"Nd-Fe-B","originalKeyword":"Nd-Fe-B"},{"id":"9fa7ff8d-e469-457d-84d2-b2dbcac4f995","keyword":"磁性能","originalKeyword":"磁性能"},{"id":"8a074856-cf06-4db1-a334-f4d082c5f9e3","keyword":"磁粉结构","originalKeyword":"磁粉结构"},{"id":"d78a4b70-81c6-4eac-8454-70f57a22f640","keyword":"各向异性","originalKeyword":"各向异性"}],"language":"zh","publisherId":"gncl2004z1190","title":"HDDR法制备各向异性Nd-Fe-Co-B-A1系永磁磁粉的磁性能与磁粉结构","volume":"35","year":"2004"},{"abstractinfo":"研究了绝缘包覆、压制成型、退火处理对软磁Fe-Si-Al磁粉芯性能的影响.采用扫描电镜,金相显微镜,B-H分析仪和万能材料试验机检测样品的内部结构、形貌、磁性能和力学性能.研究结果表明,添加绝缘剂能够有效的降低磁粉芯的涡流损耗;增大成型压力可以提高磁粉芯的压渍强度、密度、磁导率,降低损耗和矫顽力,最佳成型压力为1800MPa;压制后的退火处理是保证磁粉芯具有较好磁性能的关键,提高热处理温度可以有效的提高磁导率,降低磁滞损耗,但过高的热处理温度会使磁粉芯的磁性能恶化,最佳的退火温度为660℃.","authors":[{"authorName":"李庆达","id":"dffe203b-69a9-4059-9598-33dcc4d5a7ac","originalAuthorName":"李庆达"},{"authorName":"连法增","id":"3e344e1c-fe13-41cc-8283-fb7975d2225c","originalAuthorName":"连法增"},{"authorName":"尤俊华","id":"95a7fe16-06bc-4ce7-87a6-88b864f6b806","originalAuthorName":"尤俊华"},{"authorName":"孙陨","id":"265a43f2-f0a8-4a19-80b6-3e2f78b3ca66","originalAuthorName":"孙陨"},{"authorName":"玉兰","id":"5f015c2c-72f8-4471-8d2d-193f602356dc","originalAuthorName":"陈玉兰"}],"doi":"","fpage":"369","id":"d79cef53-bc94-47e7-8440-932b0b4c976a","issue":"3","journal":{"abbrevTitle":"GNCL","coverImgSrc":"journal/img/cover/GNCL.jpg","id":"33","issnPpub":"1001-9731","publisherId":"GNCL","title":"功能材料"},"keywords":[{"id":"cd9a07c3-76af-48f3-acf4-0152024194ff","keyword":"成型压力","originalKeyword":"成型压力"},{"id":"7615a0b5-3000-4aae-8a13-668e36fdd6a8","keyword":"退火","originalKeyword":"退火"},{"id":"32666d4b-ff71-43ca-bf91-a725c6f27abb","keyword":"损耗","originalKeyword":"损耗"},{"id":"4fd3609b-0991-446a-b83b-48ad2faacc29","keyword":"磁导率","originalKeyword":"磁导率"}],"language":"zh","publisherId":"gncl200903006","title":"软磁Fe-Si-Al磁粉芯性能研究.","volume":"40","year":"2009"}],"totalpage":5,"totalrecord":42}