{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"","authors":[{"authorName":"<span style=\"color:red\">徐匡迪</span>","id":"2cadc00c-d88d-4c25-a829-fd34b7f240e7","originalAuthorName":"徐匡迪"}],"doi":"","fpage":"1","id":"2a0e2beb-282b-4cea-a6a8-2553a3fa894a","issue":"10","journal":{"abbrevTitle":"ZGYJ","coverImgSrc":"journal/img/cover/ZGYJ.jpg","id":"87","issnPpub":"1006-9356","publisherId":"ZGYJ","title":"中国冶金"},"keywords":[{"id":"34eb26a5-e35f-4035-9818-452ed24f2d63","keyword":"","originalKeyword":""}],"language":"zh","publisherId":"zgyj201210001","title":"<span style=\"color:red\">徐匡迪</span>在中国金属学会青年学术年会上的讲话","volume":"22","year":"2012"},{"abstractinfo":"首次在255 m3高炉上进行了冶炼不锈钢母液的工业试验,生产铬含量5 %～21.3 %的不锈钢母液近千吨,铬收得率达98 %,炉况顺行,渣铁排放正常.为确保试验的成功,采取了保守的操作方针,入炉焦比提得较高,对原材料的磷含量也未加控制,试验中还将铬含量15.6 %的35 t不锈钢母液由转炉冶炼后再经连铸和轧制加工得到某种不锈钢板材,实现了不锈钢生产全流程的贯通.","authors":[{"authorName":"李一为","id":"15ef9150-367e-4d18-b4f6-e94735d03157","originalAuthorName":"李一为"},{"authorName":"丁伟中","id":"8dba97f9-8b13-4ab2-90c9-301a9d935751","originalAuthorName":"丁伟中"},{"authorName":"郑少波","id":"f49718c8-8d4e-4ff1-beac-bece0298bfdf","originalAuthorName":"郑少波"},{"authorName":"游锦洲","id":"7394a8f8-89d8-4dcf-8630-f5157eabf8a9","originalAuthorName":"游锦洲"},{"authorName":"鲁雄刚","id":"c675651f-1572-4c7a-bae3-b3266a6a8c29","originalAuthorName":"鲁雄刚"},{"authorName":"徐建伦","id":"26011530-3665-48f7-8092-eaa8bb3a93d1","originalAuthorName":"徐建伦"},{"authorName":"<span style=\"color:red\">徐匡迪</span>","id":"cbf746b6-b7c0-4b9e-9f38-f22f85e13223","originalAuthorName":"徐匡迪"},{"authorName":"张凯","id":"d88b99f5-a0b0-4176-a700-c5379b166318","originalAuthorName":"张凯"},{"authorName":"徐心强","id":"fea31338-1ce4-4ed5-97dc-725b71175df0","originalAuthorName":"徐心强"},{"authorName":"方音","id":"da16b632-1d27-42a2-87fd-02682e06e4f0","originalAuthorName":"方音"},{"authorName":"姜敏","id":"792dfc99-ea55-4738-992d-75f6cb55ff4b","originalAuthorName":"姜敏"},{"authorName":"杜洪缙","id":"b789cb52-0c89-44f0-98a2-9ee7d10760a1","originalAuthorName":"杜洪缙"}],"doi":"","fpage":"1","id":"23c3bc90-17d2-4714-b3d6-cfda7a0142cb","issue":"4","journal":{"abbrevTitle":"GT","coverImgSrc":"journal/img/cover/GT.jpg","id":"27","issnPpub":"0449-749X","publisherId":"GT","title":"钢铁"},"keywords":[{"id":"c6a4e602-b6e4-4fcb-b9c4-d47a135f27aa","keyword":"高炉","originalKeyword":"高炉"},{"id":"baa0e43e-0bce-4c94-9b3a-ea8bc7647acc","keyword":"不锈钢母液","originalKeyword":"不锈钢母液"},{"id":"d8716847-644a-41cc-a2cb-c4dc6025a591","keyword":"工业试验","originalKeyword":"工业试验"}],"language":"zh","publisherId":"gt200404001","title":"255m3高炉冶炼不锈钢母液工业试验","volume":"39","year":"2004"},{"abstractinfo":"研究强磁场(0～10T)与工频(f=50Hz)交变电流(0～10A)的复合作用对Al-4.5mass%Cu合金凝固组织的影响.发现在施加垂直于磁场方向的交变电流时,会使电极间液态金属在电磁压力(P)作用下产生波动,导致合金凝固时枝晶组织的生长被打碎,出现等轴晶和颗粒状晶.在10T磁感应强度下,交变电流越大,波动越强,越易生成等轴晶和颗粒状晶;在10A交变电流下,磁感应强度增加到4T以后,等轴晶未随磁场的增加而完全转变成颗粒状晶;当(P)相同时,磁感应强度小的,容易出现等轴晶和颗粒状晶.","authors":[{"authorName":"王俊","id":"b344593a-d738-409a-b51b-e499ce16f2fe","originalAuthorName":"王俊"},{"authorName":"邓康","id":"6a664548-be13-4300-8064-dd866670b736","originalAuthorName":"邓康"},{"authorName":"任忠鸣","id":"659f2ce6-c1c2-4210-b597-adc6d331937d","originalAuthorName":"任忠鸣"},{"authorName":"任维丽","id":"b3e47dc8-0fac-4742-90d4-e25a743e4e3b","originalAuthorName":"任维丽"},{"authorName":"李喜","id":"9bc7f324-36fc-4ca2-b95a-d9dd6c34b3c8","originalAuthorName":"李喜"},{"authorName":"钟云波","id":"3837516c-c9b1-4d30-8244-25c7092c538a","originalAuthorName":"钟云波"},{"authorName":"<span style=\"color:red\">徐匡迪</span>","id":"026f6148-4e95-4186-9aa4-0403939093c1","originalAuthorName":"徐匡迪"}],"doi":"10.3969/j.issn.1001-7208.2006.06.002","fpage":"7","id":"7686f321-64e8-49b6-8b30-681e7bd9d396","issue":"6","journal":{"abbrevTitle":"SHJS","coverImgSrc":"journal/img/cover/SHJS.jpg","id":"59","issnPpub":"1001-7208","publisherId":"SHJS","title":"上海金属"},"keywords":[{"id":"f5313c87-68bb-4b64-811f-349a178bc346","keyword":"强磁场","originalKeyword":"强磁场"},{"id":"5ee37934-439f-4a82-8f3f-2159ab26d0d4","keyword":"交流电","originalKeyword":"交流电"},{"id":"44ab4d54-583b-4be3-8f40-297b527d7f06","keyword":"复合作用","originalKeyword":"复合作用"},{"id":"107930a6-e83b-424f-b5e3-380fffc484a9","keyword":"Al-4.5％Cu","originalKeyword":"Al-4.5％Cu"},{"id":"710d97f8-3015-44c6-9b8e-1b9a6f9836e9","keyword":"合金","originalKeyword":"合金"},{"id":"2effd51f-1bbe-4a06-bfbb-e0ec8bd998ff","keyword":"凝固组织","originalKeyword":"凝固组织"}],"language":"zh","publisherId":"shjs200606002","title":"强磁场与交变电流的复合作用对Al-4.5%Cu合金凝固组织的影响","volume":"28","year":"2006"},{"abstractinfo":"综述了穗恒强磁场发生技术的发展及其在材料科学中的应用.超导强磁体经济实用,成为强磁场材料科学研究的首选设备.强磁场能够显著改变材料的相变过程、组织取向和流体流动状况.利用强磁场的这些作用有可能形成多种材料制备过程的强磁场控制理论和控制技术.","authors":[{"authorName":"李喜","id":"a4edb2a0-9f92-4f9f-ac33-d2ce9934bf98","originalAuthorName":"李喜"},{"authorName":"王晖","id":"e22c418e-b092-4e8f-86a2-2267102435c4","originalAuthorName":"王晖"},{"authorName":"任忠鸣","id":"220662a1-8bc7-4c4c-a875-3eafc8da3612","originalAuthorName":"任忠鸣"},{"authorName":"晋方伟","id":"3be62906-1bac-418c-9872-97321b484d5a","originalAuthorName":"晋方伟"},{"authorName":"钟云波","id":"ae201162-81e8-492f-8c33-25b05ccf797f","originalAuthorName":"钟云波"},{"authorName":"邓康","id":"d1b49642-65f8-4267-9f51-d855fb5b9052","originalAuthorName":"邓康"},{"authorName":"<span style=\"color:red\">徐匡迪</span>","id":"143de272-010c-4a76-84c8-464c366bc8c0","originalAuthorName":"徐匡迪"}],"doi":"","fpage":"25","id":"76d22413-7d56-414b-aeec-3455d46aad60","issue":"10","journal":{"abbrevTitle":"CLDB","coverImgSrc":"journal/img/cover/CLDB.jpg","id":"8","issnPpub":"1005-023X","publisherId":"CLDB","title":"材料导报"},"keywords":[{"id":"27bb170f-a331-4560-a023-9b78e1a98ab8","keyword":"超导强磁场","originalKeyword":"超导强磁场"},{"id":"f9b9b244-8268-4923-8390-8f205d3f7ea4","keyword":"磁取向","originalKeyword":"磁取向"},{"id":"0f6fc6e1-caa0-4324-9438-bf53eb37fa02","keyword":"热处理","originalKeyword":"热处理"},{"id":"7df411dd-8447-4430-8caa-43716c13bc10","keyword":"对流","originalKeyword":"对流"}],"language":"zh","publisherId":"cldb200210009","title":"稳恒强磁场技术的发展及其在材料科学中的应用","volume":"16","year":"2002"},{"abstractinfo":"Bi-Mn过共晶合金分别从3个不同状态凝固,合金中MnBi析出相均在磁场作用下以晶体的c轴平行磁场取向,形成规则排列组织,并且所得材料的剩磁都具有明显的各向异性.合金从低于355℃的固液两相区凝固时,铁磁性MnBi析出相在1.0T磁场中迅速形成均布的织构组织,并能在无磁场条件下保持稳定,材料无需热处理就有很好的剩磁性能.因此,磁场凝固技术能够高效率地、直接制备出性能优良的MnBi/Bi磁性功能复合材料.","authors":[{"authorName":"王晖","id":"5116439d-56db-4293-a419-7c7ca9654fcb","originalAuthorName":"王晖"},{"authorName":"任忠鸣","id":"b0b47d80-8368-4ba0-bf2b-e2cc05ee5569","originalAuthorName":"任忠鸣"},{"authorName":"李伟轩","id":"a154c0ea-ac0b-42b1-8c14-4d6fccd69e5d","originalAuthorName":"李伟轩"},{"authorName":"<span style=\"color:red\">徐匡迪</span>","id":"94b040b8-2982-4b4a-b7bd-565a9e511cb5","originalAuthorName":"徐匡迪"},{"authorName":"黄晖","id":"80dc9059-ac87-401b-a6fc-1129af455b47","originalAuthorName":"黄晖"},{"authorName":"王秋良","id":"095b18bc-1b3a-4de6-86c7-e7172c48f552","originalAuthorName":"王秋良"},{"authorName":"严陆光","id":"2ebbf913-d96a-4293-af63-81e67a5fa784","originalAuthorName":"严陆光"}],"doi":"","fpage":"550","id":"d0029142-f863-4bfc-be12-2916b4836207","issue":"5","journal":{"abbrevTitle":"GNCL","coverImgSrc":"journal/img/cover/GNCL.jpg","id":"33","issnPpub":"1001-9731","publisherId":"GNCL","title":"功能材料"},"keywords":[{"id":"9496bad7-1e8f-4330-acdd-832f876ab3ce","keyword":"功能复合材料","originalKeyword":"功能复合材料"},{"id":"894fe85d-67a9-45a0-9b54-438ebbb3494b","keyword":"强磁场","originalKeyword":"强磁场"},{"id":"78f87c41-72c1-4f94-bd4a-0acc3adf610f","keyword":"凝固","originalKeyword":"凝固"},{"id":"9ce13ae5-2130-4eb2-a90e-7f8839cc987f","keyword":"过共晶合金","originalKeyword":"过共晶合金"},{"id":"a0ccd046-8ac1-46d4-b220-771737252b2f","keyword":"MnBi析出相","originalKeyword":"MnBi析出相"},{"id":"afc9eed9-d30f-40cf-ab36-479ddff5f870","keyword":"磁性能","originalKeyword":"磁性能"}],"language":"zh","publisherId":"gncl200405005","title":"磁场凝固法制备过共晶MnBi/Bi磁性功能复合材料","volume":"35","year":"2004"},{"abstractinfo":"为了探讨铬铁矿的熔融还原机理,利用光学显微镜、电子扫描显微镜和能谱分析技术,观察分析熔融滴下实验中不锈钢母液炉料滴下物的结构形态变化.结果表明,还原过程可分为两个阶段:首先是铬铁矿通过CO气体的间接还原,其还原机理可用未反应核模型解释;其后是铬铁矿逐步在渣相中溶解,被固体碳直接熔融还原.","authors":[{"authorName":"李一为","id":"03a767c7-0583-4d85-9515-17e1a33b2e02","originalAuthorName":"李一为"},{"authorName":"丁伟中","id":"bc31c34e-dff3-48f4-9930-a1914601b448","originalAuthorName":"丁伟中"},{"authorName":"游锦洲","id":"f8fbecdd-8209-4cae-8f62-0fa73ace7dc9","originalAuthorName":"游锦洲"},{"authorName":"郑少波","id":"5b5e2858-8723-4b85-b21c-cbcf028dd6a2","originalAuthorName":"郑少波"},{"authorName":"鲁雄刚","id":"d6ac7846-4b99-46dd-a018-72f47fe28428","originalAuthorName":"鲁雄刚"},{"authorName":"徐建伦","id":"8d6d62d6-0abc-4d5d-afa7-ac74fcee20ac","originalAuthorName":"徐建伦"},{"authorName":"<span style=\"color:red\">徐匡迪</span>","id":"c02c0e9c-368e-4365-94d3-cc726de67b7f","originalAuthorName":"徐匡迪"}],"doi":"","fpage":"4","id":"d21961c3-3734-4d00-8ed7-e5346cb5f088","issue":"6","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":"5dd85cb0-b8ef-46f0-91fa-0bfc53b59d04","keyword":"熔融还原","originalKeyword":"熔融还原"},{"id":"1e57f1a3-7639-4614-b478-72c7667a69c4","keyword":"铬铁矿","originalKeyword":"铬铁矿"},{"id":"ccba7be8-da64-4431-95ae-9c40255bf58b","keyword":"机理","originalKeyword":"机理"}],"language":"zh","publisherId":"gtyjxb200306002","title":"铬铁矿在熔融滴下过程中的还原机理","volume":"15","year":"2003"},{"abstractinfo":"研究了Bi-Mn合金从固液两相区开始凝固,合金中MnBi相在磁场中形成定向排列组织的临界条件及其变化规律.实验研究表明,Bi-Mn合金中MnBi相在磁场中的定向排列能够迅速形成;MnBi相形成定向排列组织所需的临界温度随外磁场强度的增大而降低;恒温温度相同时,6%Mn合金形成定向排列组织所需的临界磁场强度高于3%Mn合金.在临界值以上,定向排列因子Γ随恒温温度的升高和磁场磁感应强度的增强而增大.理论分析结合实验研究表明,合金中MnBi晶体在磁场中取向的机制主要是旋转取向,晶体取向驱动力主要是晶体具有磁各向异性,在磁场中磁化过程中所受的磁力矩,阻力主要是晶体间碰撞阻碍.","authors":[{"authorName":"王晖","id":"cc2f16bd-f1c1-4ea6-b472-23e12195aa13","originalAuthorName":"王晖"},{"authorName":"任忠鸣","id":"66da5485-6e62-4086-a70a-85953c9362df","originalAuthorName":"任忠鸣"},{"authorName":"李喜","id":"c325e5a0-addb-4bc0-95f5-7499661ff81a","originalAuthorName":"李喜"},{"authorName":"高云","id":"49d168ee-6f3f-4e68-b12d-fb5e61ec4b3f","originalAuthorName":"高云"},{"authorName":"晋芳伟","id":"48eed188-a7a8-4d7d-b42f-984634546057","originalAuthorName":"晋芳伟"},{"authorName":"邓康","id":"924c2b46-f8ff-4c21-8aca-4100dc0f69cd","originalAuthorName":"邓康"},{"authorName":"<span style=\"color:red\">徐匡迪</span>","id":"fea0975d-7488-41ad-9182-b0b2b4490e61","originalAuthorName":"徐匡迪"}],"doi":"10.3969/j.issn.1001-4381.2002.11.005","fpage":"17","id":"eef7c670-5030-472f-9f06-aeba9219527a","issue":"11","journal":{"abbrevTitle":"CLGC","coverImgSrc":"journal/img/cover/CLGC.jpg","id":"9","issnPpub":"1001-4381","publisherId":"CLGC","title":"材料工程"},"keywords":[{"id":"c0567916-5752-4e9d-b222-e7d2ae46dbda","keyword":"磁场","originalKeyword":"磁场"},{"id":"e242521f-5d0f-49bf-b02c-3b6fa1a19e8a","keyword":"Bi-Mn合金","originalKeyword":"Bi-Mn合金"},{"id":"541e518c-df12-4158-833c-5a60b2ac4aa5","keyword":"MnBi相","originalKeyword":"MnBi相"},{"id":"a0e952b2-43fb-4a93-bab3-a3a17030e21b","keyword":"定向排列","originalKeyword":"定向排列"},{"id":"387c50e6-80b7-463e-8f5a-70b1651286f5","keyword":"临界条件","originalKeyword":"临界条件"}],"language":"zh","publisherId":"clgc200211005","title":"磁场中Bi-Mn合金中MnBi相定向排列组织的形成规律和机制","volume":"","year":"2002"},{"abstractinfo":"用金相显微镜和X射线衍射研究了强磁场条件下Al-8%Ni合金中非铁磁性的Al3Ni析出相的凝固行为,发现强磁场诱导Al3Ni晶粒以c轴平行磁场方向取向,并且晶粒的长轴与c轴垂直;取向的晶粒在垂直磁场方向上形成多个相互平行的Al3Ni聚合面,即形成规则的Al3Ni层状组织;在层状聚合面中随机分布着多个大的Al3Ni聚合体,聚合体内部的晶粒有序排列.","authors":[{"authorName":"王晖","id":"6a3f93e1-cab2-4add-bed1-db2fd0e6e52d","originalAuthorName":"王晖"},{"authorName":"任忠鸣","id":"4128669a-7fab-4afd-8902-c80236e36490","originalAuthorName":"任忠鸣"},{"authorName":"<span style=\"color:red\">徐匡迪</span>","id":"766eecdf-aefa-46d9-a50d-87c4f2d31875","originalAuthorName":"徐匡迪"},{"authorName":"黄晖","id":"814f8367-3aef-4b44-9782-05ba624167c6","originalAuthorName":"黄晖"},{"authorName":"王秋良","id":"b94d3a15-6006-4778-a093-6e0e1d9e61b1","originalAuthorName":"王秋良"},{"authorName":"严陆光","id":"015f9ebd-337a-483b-aa4e-4588f7eca1de","originalAuthorName":"严陆光"}],"doi":"","fpage":"1033","id":"06237299-9368-4314-802d-9740e73fcbe7","issue":"7","journal":{"abbrevTitle":"XYJSCLYGC","coverImgSrc":"journal/img/cover/XYJSCLYGC.jpg","id":"69","issnPpub":"1002-185X","publisherId":"XYJSCLYGC","title":"稀有金属材料与工程"},"keywords":[{"id":"9b097fb2-93e0-473e-bfcc-00eed1ba4cdc","keyword":"强磁场","originalKeyword":"强磁场"},{"id":"2e830c82-2137-4dc8-bbf0-a8e0d7305718","keyword":"取向","originalKeyword":"取向"},{"id":"5797295f-c961-4678-b119-bf1ce172bf59","keyword":"层状组织","originalKeyword":"层状组织"},{"id":"731861e3-315f-4c0b-a9a8-b6e6e715f752","keyword":"Al-Ni合金","originalKeyword":"Al-Ni合金"},{"id":"f2bcd97e-b919-4948-869e-1a03bf1ade65","keyword":"Al3Ni析出相","originalKeyword":"Al3Ni析出相"}],"language":"zh","publisherId":"xyjsclygc200507007","title":"强磁场作用下Al-Ni合金中Al3Ni析出相的凝固行为","volume":"34","year":"2005"},{"abstractinfo":"在无磁场的条件下, 降温过程中Bi--Mn合金在340 ℃发生包晶相变, 顺磁性Mn1.08Bi相转变为铁磁性MnBi相, 同时伴随着相的形态变化, 由块状转变成片状；在10 T磁场中,  Mn1.08Bi相发生包晶相变的温度升高至介于360---370 ℃之间, 且MnBi相晶体发生了分裂, 分裂后的小晶体沿磁场方向定向排列和聚合。 从磁场诱发应变的角度分析了磁场对相变温度和MnBi相形态的影响。","authors":[{"authorName":"李喜","id":"b8c7f5c2-d8e8-4ca1-a2ea-eef6c8096f97","originalAuthorName":"李喜"},{"authorName":"任忠鸣","id":"d58575e9-ecc5-412b-b056-4742dcf40722","originalAuthorName":"任忠鸣"},{"authorName":"王立龙","id":"1f10dc41-ae9b-439f-a2e9-73ecd0c4ce43","originalAuthorName":"王立龙"},{"authorName":"余建波","id":"dac1fa80-5863-4d83-b038-8112d6a14218","originalAuthorName":"余建波"},{"authorName":"邓康","id":"f0da74a2-27d7-406f-9100-87d3feaf0e12","originalAuthorName":"邓康"},{"authorName":"<span style=\"color:red\">徐匡迪</span>","id":"af38f773-7565-42f5-9e8a-0603274efd5e","originalAuthorName":"徐匡迪"}],"categoryName":"|","doi":"","fpage":"77","id":"1571e68e-a522-4105-b677-34b8fc0e93c9","issue":"1","journal":{"abbrevTitle":"JSXB","coverImgSrc":"journal/img/cover/JSXB.jpg","id":"48","issnPpub":"0412-1961","publisherId":"JSXB","title":"金属学报"},"keywords":[{"id":"a50834b8-a59b-4017-9f4a-e6500320539c","keyword":"强磁场","originalKeyword":"强磁场"},{"id":"c0ed52ad-342d-4943-b72f-791b94ef300b","keyword":"null","originalKeyword":"null"},{"id":"41610d6f-1f58-4a7d-b693-866ba68f7eba","keyword":"null","originalKeyword":"null"}],"language":"zh","publisherId":"0412-1961_2006_1_18","title":"强磁场对Bi--6%Mn合金中MnBi相形态和相变的影响","volume":"42","year":"2006"},{"abstractinfo":"在电沉积镍铁合金膜过程中施加了不同强度的纵向强磁场,研究了磁场强度对电沉积镍铁合金膜的微观形貌、晶粒取向和成分的影响. 结果表明:随着磁感应强度增加,镀层表面晶粒先粗化,然后细化为数百纳米的颗粒层;同时样品截面组织经历了由层状生长转为树枝晶、脊状晶和条状晶的一系列变化;在12T强磁场下条状晶沿外磁场方向破碎为球状微晶组织;强磁场使样品(111)晶面择优取向,并进一步促进了Fe2+的优先沉积,使样品中铁含量随外加磁场强度的增大而增加,而膜的饱和磁化强度也线性提高.","authors":[{"authorName":"温艳玲","id":"7de4ba55-c238-42e8-afca-337d56d92766","originalAuthorName":"温艳玲"},{"authorName":"钟云波","id":"cf3d4203-fb2b-4714-af27-985e98676aec","originalAuthorName":"钟云波"},{"authorName":"任忠鸣","id":"9746744f-378a-4a22-98cc-8d8e4308f682","originalAuthorName":"任忠鸣"},{"authorName":"黄琦晟","id":"74e388c0-ca83-432f-b483-73e2224a025d","originalAuthorName":"黄琦晟"},{"authorName":"邓康","id":"1210df6a-ae73-4f5d-8fa6-f8b703a322ba","originalAuthorName":"邓康"},{"authorName":"<span style=\"color:red\">徐匡迪</span>","id":"c9eabf2e-42b0-4009-bdd3-80a1385c19c2","originalAuthorName":"徐匡迪"}],"doi":"","fpage":"715","id":"2445d83e-1cec-4a4c-ad2c-66568407833f","issue":"4","journal":{"abbrevTitle":"ZGYSJSXB","coverImgSrc":"journal/img/cover/ZGYSJSXB.jpg","id":"88","issnPpub":"1004-0609","publisherId":"ZGYSJSXB","title":"中国有色金属学报"},"keywords":[{"id":"457f08d0-c73f-4882-8f47-57f06d514157","keyword":"镍铁合金膜","originalKeyword":"镍铁合金膜"},{"id":"2b2de967-66bf-4e5e-a4d7-50850e1fdc63","keyword":"强磁场","originalKeyword":"强磁场"},{"id":"21983c7d-3ade-4443-966b-7acde32dd6cd","keyword":"电沉积","originalKeyword":"电沉积"},{"id":"835246c5-fa47-4b2d-a68c-7f322ad0a393","keyword":"微观结构","originalKeyword":"微观结构"}],"language":"zh","publisherId":"zgysjsxb200604025","title":"强磁场对电沉积镍铁合金膜显微组织的影响","volume":"16","year":"2006"}],"totalpage":8,"totalrecord":71}