{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"使用磁控溅射方法制备了一系列Tb-Co2FeAl磁性薄膜,研究了两种不同溅射功率以及不同的薄膜厚度对样品的磁性的影响.采用交变梯度磁强计(AGM)对样品磁性能进行表征.结果显示,当Tb靶和CO2FeAl靶的溅射功率分别为5和15 W时,同时表现出平面内各向异性及弱垂直各向异性;而当功率分别为10和30 W时则表现出强垂直磁各向异性,垂直矫顽力Hc=3.3×104 A·m-1,且垂直矫顽力的值随着薄膜厚度降低也逐渐减小,当厚度减小到10 nm时,Hc=1×104A·m-1.","authors":[{"authorName":"李晓其","id":"1e2cf541-b7f5-4dc5-bdeb-a4666c46c79a","originalAuthorName":"李晓其"},{"authorName":"徐晓光","id":"658689d5-8a18-4923-81ec-d383aab14689","originalAuthorName":"徐晓光"},{"authorName":"张德林","id":"7273ed18-fa2d-4ead-8416-889fb416ffb1","originalAuthorName":"张德林"},{"authorName":"包瑾","id":"510b64cb-2880-4657-90af-d4e6d4000d4f","originalAuthorName":"包瑾"},{"authorName":"张国庆","id":"c9db492d-bd7e-4935-8762-3ae011433f7e","originalAuthorName":"张国庆"},{"authorName":"姜勇","id":"dae93763-f880-4e61-a143-964287a9d5a9","originalAuthorName":"姜勇"}],"doi":"10.3969/j.issn.0258-7076.2010.03.005","fpage":"341","id":"78670373-1386-44bf-a97e-371cad280062","issue":"3","journal":{"abbrevTitle":"XYJS","coverImgSrc":"journal/img/cover/XYJS.jpg","id":"67","issnPpub":"0258-7076","publisherId":"XYJS","title":"稀有金属"},"keywords":[{"id":"e7021c23-d06f-429d-888f-188878aa6598","keyword":"垂直磁各向异性","originalKeyword":"垂直磁各向异性"},{"id":"52d20825-0d07-4134-8709-6783d9561dec","keyword":"垂直矫顽力","originalKeyword":"垂直矫顽力"},{"id":"b3f55623-a7a7-439c-9287-073c19b240ee","keyword":"Tb-Co2FeAl薄膜","originalKeyword":"Tb-Co2FeAl薄膜"}],"language":"zh","publisherId":"xyjs201003005","title":"稀土-Heusler合金Tb-Co2FeAl垂直磁各向异性薄膜的制备和磁性能的研究","volume":"34","year":"2010"},{"abstractinfo":"中间包的寿命和优劣,直接影响着连铸机的产量和质量.同煤集团公司钢铁公司的连铸机经过改造,提高了中间包的寿命,降低了生产成本.同时,提高了产量,改善了铸坯的质量.","authors":[{"authorName":"张观存","id":"24c51b87-10d7-4575-8638-b927c2d38cd6","originalAuthorName":"张观存"},{"authorName":"杨付春","id":"b65784b2-074c-40c8-b819-016d31967ef5","originalAuthorName":"杨付春"},{"authorName":"王瑞英","id":"002f4e34-f81a-4448-9ba1-c3982efcbf56","originalAuthorName":"王瑞英"},{"authorName":"杨月芳","id":"aa65feb2-8d51-4175-8977-832b970ff734","originalAuthorName":"杨月芳"}],"doi":"10.3969/j.issn.1005-4006.2007.02.012","fpage":"34","id":"d376dc87-2d9d-49fc-aeac-ca460bd7c805","issue":"2","journal":{"abbrevTitle":"LZ","coverImgSrc":"journal/img/cover/LZ.jpg","id":"52","issnPpub":"1005-4006","publisherId":"LZ","title":"连铸"},"keywords":[{"id":"32436430-182b-4534-9997-dbe2c3f3081e","keyword":"小方坯连铸机","originalKeyword":"小方坯连铸机"},{"id":"836411e1-eb45-40a4-86b8-ab219f26faff","keyword":"中间包","originalKeyword":"中间包"},{"id":"356091e7-38fb-414c-844c-3fedba2db680","keyword":"分流排渣器","originalKeyword":"分流排渣器"}],"language":"zh","publisherId":"lz200702012","title":"连铸机中间包改造","volume":"","year":"2007"},{"abstractinfo":"基于电磁搅拌技术的离心流动中间包对分离夹杂物以满足高效连铸时对钢水清洁度的要求具有十分重要的作用.对离心流动中间包的基本构成、工作原理、冶金效果及工业应用效果分别进行了阐述,说明了离心流动中间包对洁净钢水、提高铸坯及成品材表面质量具有良好的效果.","authors":[{"authorName":"毛斌","id":"06e195a9-c5f7-4559-b1ac-122b23221366","originalAuthorName":"毛斌"},{"authorName":"陶金明","id":"2b58265b-51e9-4fa3-9c3d-23f38b3d6ae1","originalAuthorName":"陶金明"},{"authorName":"孙丽娟","id":"32fef3b5-5d97-4460-aee1-2bc0f233564b","originalAuthorName":"孙丽娟"}],"doi":"","fpage":"8","id":"5fb22e00-229c-4d5c-b603-c067db2b8f3d","issue":"2","journal":{"abbrevTitle":"LZ","coverImgSrc":"journal/img/cover/LZ.jpg","id":"52","issnPpub":"1005-4006","publisherId":"LZ","title":"连铸"},"keywords":[{"id":"38647413-8e20-48d9-adc3-cffc92a64194","keyword":"离心流动中间包","originalKeyword":"离心流动中间包"},{"id":"65a5ecd4-cce6-4336-aafa-5ec6bce46855","keyword":"钢水洁净度","originalKeyword":"钢水洁净度"},{"id":"696bc740-ea85-44bb-932e-83e8b2c03891","keyword":"表面质量","originalKeyword":"表面质量"}],"language":"zh","publisherId":"lz200802003","title":"中间包冶金新技术——离心流动中间包","volume":"","year":"2008"},{"abstractinfo":"铁水包空包保温对钢铁企业节能减排和降低成本具有重要意义.对加盖和不加盖的铁水包空包在5h内的温降过程进行了现场测温,结果表明,铁水包加盖对铁水包空包,特别是中上部包衬具有显著的保温作用.铁水包加盖保温应在转炉兑铁结束后尽早进行,同时缩短空包时间,以取得最佳的保温效果.","authors":[{"authorName":"韩伟刚","id":"edd30c67-3e95-4221-b6a3-21d4b4a2cc04","originalAuthorName":"韩伟刚"},{"authorName":"郦秀萍","id":"69669e21-515b-4d76-8533-930b9c1c8a0b","originalAuthorName":"郦秀萍"},{"authorName":"张春霞","id":"dc36ae69-e3bf-433e-8b2c-72d17f061ff7","originalAuthorName":"张春霞"},{"authorName":"周继程","id":"f8d9cd33-04c2-4741-833b-64f50d850bd5","originalAuthorName":"周继程"},{"authorName":"石鑫越","id":"761e40f0-9b57-4156-9f43-dd7eb55f426d","originalAuthorName":"石鑫越"}],"doi":"10.13228/j.boyuan.issn0449-749x.20150408","fpage":"91","id":"ff6bd1d9-b4f5-44e0-b46a-33bba6bc7936","issue":"12","journal":{"abbrevTitle":"GT","coverImgSrc":"journal/img/cover/GT.jpg","id":"27","issnPpub":"0449-749X","publisherId":"GT","title":"钢铁"},"keywords":[{"id":"2ec7a033-7e46-4a38-93c4-ea6f234ee62f","keyword":"铁水包","originalKeyword":"铁水包"},{"id":"1ed5ba25-0836-4d6f-beb6-4945b959a0f4","keyword":"周转","originalKeyword":"周转"},{"id":"2ec11199-455c-4a4d-b790-60e56f1a4e64","keyword":"降温速率","originalKeyword":"降温速率"},{"id":"58f57d41-8ffa-4fa8-8d11-8da9351e38f2","keyword":"铁水温度","originalKeyword":"铁水温度"}],"language":"zh","publisherId":"gt201512016","title":"铁水包空包加盖保温效果","volume":"50","year":"2015"},{"abstractinfo":"介绍了纳米柱子的聚合物、有机、无机、元素单质、生物大分子包覆技术及其包覆纳米柱子在催化、磁性材料、半导体材料、生物技术方面的应用.","authors":[{"authorName":"黄远红","id":"89a97aa8-cc7b-447c-99ef-8c485d81fdee","originalAuthorName":"黄远红"},{"authorName":"胡文军","id":"09387321-744a-4553-b26d-0775fabff46e","originalAuthorName":"胡文军"},{"authorName":"袁仲国","id":"28033599-bda0-47dd-a241-db3ac4130937","originalAuthorName":"袁仲国"},{"authorName":"郭静","id":"c841e4ab-32ad-4464-af82-ab569b616fc3","originalAuthorName":"郭静"}],"doi":"","fpage":"55","id":"0c5be62e-9f1f-4b97-99b0-189445423844","issue":"7","journal":{"abbrevTitle":"CLDB","coverImgSrc":"journal/img/cover/CLDB.jpg","id":"8","issnPpub":"1005-023X","publisherId":"CLDB","title":"材料导报"},"keywords":[{"id":"1f149823-d201-46b3-8fac-94632e0da1a5","keyword":"纳米粒子","originalKeyword":"纳米粒子"},{"id":"40690d22-4261-49f4-9cc6-949b4671b52e","keyword":"包覆","originalKeyword":"包覆"},{"id":"ff038218-05dd-4a30-917c-cbd061d983d8","keyword":"核壳结构","originalKeyword":"核壳结构"},{"id":"119b9165-9296-4b86-adf6-fe86459f9134","keyword":"应用","originalKeyword":"应用"}],"language":"zh","publisherId":"cldb200207017","title":"纳米粒子的包覆技术","volume":"16","year":"2002"},{"abstractinfo":"目前炼钢厂普遍存在转炉与连铸机生产节奏不匹配的现象,需要进行攒包生产才能保证连铸机连浇,因此,提出科学合理的钢包攒包生产控制模型对炼钢厂进一步实现节能降耗意义重大.以C炼钢厂钢包为研究对象,解析其运行模式和运行时间,分析转炉与连铸机匹配模式;通过分析钢包攒包时间与连铸机浇注炉次数之间的关系,构建钢包攒包生产运行时间控制模型,计算出合理的钢包攒包时间、重包运行时间和周转周期;运用甘特图分析法研究攒包生产条件下的钢包周转规律,构建钢包周转数量控制模型.将模型运用于实际,可有效减少钢包攒包数和周转数,提高周转率并减少钢水温降.","authors":[{"authorName":"黄帮福","id":"7e6042c5-42ca-4c88-8751-cebc482024bc","originalAuthorName":"黄帮福"},{"authorName":"樊波","id":"3f3e0fa6-6ba9-43cd-aa45-d30f194cc993","originalAuthorName":"樊波"},{"authorName":"王建军","id":"20525ba8-8334-4bff-8d7f-cc04de5c718a","originalAuthorName":"王建军"},{"authorName":"李广双","id":"209cc774-86e1-4e95-a1e6-aa7f73725ceb","originalAuthorName":"李广双"},{"authorName":"齐岩","id":"859469d3-a9a2-4c16-8ec7-3ae5888653bf","originalAuthorName":"齐岩"}],"doi":"","fpage":"25","id":"284af7ba-2d57-4241-96fa-1ab8ac488d6e","issue":"4","journal":{"abbrevTitle":"GT","coverImgSrc":"journal/img/cover/GT.jpg","id":"27","issnPpub":"0449-749X","publisherId":"GT","title":"钢铁"},"keywords":[{"id":"bc277c6c-3358-4bbb-bfc4-da622db7b146","keyword":"炼钢厂","originalKeyword":"炼钢厂"},{"id":"3676d319-b3a9-48e2-92a0-86e18506bc99","keyword":"钢包","originalKeyword":"钢包"},{"id":"cdae54f9-121a-4003-bc17-28803ac96028","keyword":"攒包","originalKeyword":"攒包"},{"id":"f873e1ad-0fdd-4949-a3b7-d4bf508c9da8","keyword":"甘特图","originalKeyword":"甘特图"},{"id":"949fa5f2-ea9c-4853-affe-1727e1c6fe96","keyword":"控制模型","originalKeyword":"控制模型"}],"language":"zh","publisherId":"gt201404005","title":"钢包攒包生产控制模型","volume":"49","year":"2014"},{"abstractinfo":"介绍了铁水包加盖设备在首钢京唐公司的应用实践,铁水包加盖可以减少铁水在运输过程中的温度损失,加盖后比加盖前平均温降减低17.4℃,达到了预期目标。铁水包加盖基本可以实现全程的铁水红包运行,加盖后对空包散热起到了较好的抑制作用,减少温降对耐火材料的侵蚀,铁水包加盖后铁水包平均寿命有了较大幅度的提升,可见铁水包加盖对耐火材料寿命的提高效果显著。","authors":[{"authorName":"项宝胜","id":"d114fc58-6518-4212-89d4-d9325f3a8643","originalAuthorName":"项宝胜"}],"doi":"10.13228/j.boyuan.issn1006-9356.20140319","fpage":"37","id":"369d35cc-2457-41e5-9eb7-45bb89ebae7d","issue":"9","journal":{"abbrevTitle":"ZGYJ","coverImgSrc":"journal/img/cover/ZGYJ.jpg","id":"87","issnPpub":"1006-9356","publisherId":"ZGYJ","title":"中国冶金"},"keywords":[{"id":"2abe07a0-2fea-4b25-9a12-b887484d2453","keyword":"铁水包加盖","originalKeyword":"铁水包加盖"},{"id":"01e96390-5bab-4eef-954e-de1e54b5d241","keyword":"实践","originalKeyword":"实践"},{"id":"c53acafa-d272-4306-9b76-80b39c02deb8","keyword":"温降","originalKeyword":"温降"},{"id":"920ab94a-d844-4fd8-bae7-96f009c9dd3e","keyword":"耐火材料寿命","originalKeyword":"耐火材料寿命"}],"language":"zh","publisherId":"zgyj201509009","title":"铁水包加盖设备改造实践","volume":"","year":"2015"},{"abstractinfo":"利用湍流理论,建立中间包温度场的数学模型.通过建立中间包温度场的有限元模型,分析了有限元法在模拟中间包温度场方面的应用.基于有限元法对中间包温度场及其温度分布进行了分析研究,结果表明:中间包内钢水的流动在许多情况下表现为一种非等温状态下的流动,不同结构中间包内钢液温度分布有差异.优化后的中间包钢液的温度分布均匀,有利于提高连铸坯的质量.","authors":[{"authorName":"蒋国璋","id":"c1c66eea-c7c2-4c17-8ddb-6e030b44f2b2","originalAuthorName":"蒋国璋"},{"authorName":"孔建益","id":"fafe0c39-118d-42d7-8375-01495d3f34f1","originalAuthorName":"孔建益"},{"authorName":"李公法","id":"c1552396-084c-4e39-a112-af474319d3f4","originalAuthorName":"李公法"},{"authorName":"刘耀林","id":"bb1f8840-c154-4223-ab0d-88acf840394f","originalAuthorName":"刘耀林"}],"doi":"","fpage":"27","id":"41e48143-a0f5-4c78-9eb3-b3d72281aca3","issue":"4","journal":{"abbrevTitle":"GT","coverImgSrc":"journal/img/cover/GT.jpg","id":"27","issnPpub":"0449-749X","publisherId":"GT","title":"钢铁"},"keywords":[{"id":"d6f643e2-2b0e-4105-bc08-2600774563b6","keyword":"中间包","originalKeyword":"中间包"},{"id":"f690db0f-ed10-48f3-b226-3c797ca3c548","keyword":"有限元法","originalKeyword":"有限元法"},{"id":"a17c9d2c-2b93-4b68-9e18-24971b92b6c2","keyword":"温度分布","originalKeyword":"温度分布"},{"id":"89048a35-1835-415b-a404-11b19291a573","keyword":"数学模型","originalKeyword":"数学模型"},{"id":"98459304-fc54-42e9-9a99-fc9f38081305","keyword":"横拟","originalKeyword":"横拟"}],"language":"zh","publisherId":"gt200704008","title":"中间包温度分布的模拟研究","volume":"42","year":"2007"},{"abstractinfo":"利用湍流理论,建立中间包温度场的数学模型。通过建立中间包温度场的有限元模型,分析了有限元法在模拟中间包温度场方面的应用。基于有限元法对中间包温度场及其温度分布进行了分析研究,结果表明:中间包内钢水的流动在许多情况下表现为一种非等温状态下的流动,不同结构中间包内钢液温度分布有差异。优化后的中间包钢液的温度分布均匀,有利于提高连铸坯的质量。","authors":[{"authorName":"蒋国璋","id":"8f8457c1-fe48-4ae5-a186-7276a0d1f311","originalAuthorName":"蒋国璋"},{"authorName":"孔建益","id":"d4ba9eff-8131-4409-b640-98cadc2641ab","originalAuthorName":"孔建益"},{"authorName":"李公法","id":"449973c8-ccfd-42e2-bcac-3d3ef4898905","originalAuthorName":"李公法"},{"authorName":"刘耀林","id":"82615ca6-8f2b-49fd-ada2-7fc1ce580320","originalAuthorName":"刘耀林"}],"categoryName":"|","doi":"","fpage":"27","id":"a967dbd8-cf6b-448e-8ffd-eceefa62c41c","issue":"4","journal":{"abbrevTitle":"GT","coverImgSrc":"journal/img/cover/GT.jpg","id":"27","issnPpub":"0449-749X","publisherId":"GT","title":"钢铁"},"keywords":[{"id":"ad10f9e9-f18b-46ce-ba39-31c897e8ebaa","keyword":"中间包;有限元法;温度分布;数学模型;横拟","originalKeyword":"中间包;有限元法;温度分布;数学模型;横拟"}],"language":"zh","publisherId":"0449-749X_2007_4_17","title":"中间包温度分布的模拟研究","volume":"42","year":"2007"},{"abstractinfo":"以淮钢连铸中间包为研究对象,通过建立中间包水模型,对对称四流中间包的流体流动特性进行研究.结果表明:原中间包同一侧的两流之间的流体流动特性存在很大差异,与外侧流相比,内侧流的平均停留时间小,死区体积大.四流一致性差导致中间包内钢液温度不均匀,夹杂物不能有效上浮去除,不能很好地满足高质量特钢生产的要求.加装优化后的挡墙、湍流器等中间包控流装置,四流的停留时间分布趋于一致,滞止时间、平均停留时间延长,死区体积减小.","authors":[{"authorName":"于洋","id":"f1d7c4b0-d47d-47e5-b35a-3503b1ae033b","originalAuthorName":"于洋"},{"authorName":"岳峰","id":"90cdf4e5-db1f-4339-869c-c43af94c3f5e","originalAuthorName":"岳峰"},{"authorName":"肖波","id":"4ab3f491-ed7b-4a63-aa5f-b415d253685d","originalAuthorName":"肖波"}],"doi":"","fpage":"15","id":"1c5d541f-402c-480e-bdd6-f196f27dca94","issue":"2","journal":{"abbrevTitle":"GTYJ","coverImgSrc":"journal/img/cover/GTYJ.jpg","id":"29","issnPpub":"1001-1447","publisherId":"GTYJ","title":"钢铁研究"},"keywords":[{"id":"3c43c820-c62e-450f-a1be-6a88b221bc85","keyword":"四流中间包","originalKeyword":"四流中间包"},{"id":"91d64e77-c2f4-4ca9-b35e-eb19c96c2210","keyword":"水模拟","originalKeyword":"水模拟"},{"id":"ba5f1893-5613-448d-8192-de3945685326","keyword":"结构优化","originalKeyword":"结构优化"}],"language":"zh","publisherId":"gtyj201702004","title":"对称四流中间包结构优化","volume":"45","year":"2017"}],"totalpage":378,"totalrecord":3775}