{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"本文主要包括超声穿透法对缩孔和裂纹的检测、结构均匀性检测和采用平测法对耐火材料残余厚度和开口裂纹深度的检测。试验结果表明:采用(T'-V')法能判断电砖缩孔的形状、大小和位置;完整波形数目是确定裂纹扩展面积的有效参量;采用平测法能检测耐火材料的残余厚度和开口裂纹深度,检测精度在7%以内。","authors":[{"authorName":"孙志国","id":"cb9a6112-6a79-4525-8544-cb5376d6a515","originalAuthorName":"孙志国"},{"authorName":"孙承绪","id":"6dc310dc-5258-416c-8c9b-988e2cf18be8","originalAuthorName":"孙承绪"},{"authorName":"于衍宏","id":"96ee9e19-3ba3-4a90-ae86-5dc353c29d12","originalAuthorName":"于衍宏"},{"authorName":"强振南","id":"a8854448-ac93-4724-a5a7-ac928888937b","originalAuthorName":"强振南"}],"doi":"10.3969/j.issn.1001-1935.2000.06.015","fpage":"350","id":"1d8d41b5-b57e-48ee-8f60-80a69cd289a2","issue":"6","journal":{"abbrevTitle":"NHCL","coverImgSrc":"journal/img/cover/NHCL.jpg","id":"55","issnPpub":"1001-1935","publisherId":"NHCL","title":"耐火材料 "},"keywords":[{"id":"bb282ea2-ae44-45ef-bf81-4dc474a76232","keyword":"超声波","originalKeyword":"超声波"},{"id":"dbcfc72a-3bd4-420d-aee3-71dc55f4800d","keyword":"无损检测","originalKeyword":"无损检测"},{"id":"77c28ce6-2c3b-457d-8189-f6c71b5ad4e1","keyword":"耐火材料","originalKeyword":"电熔耐火材料"}],"language":"zh","publisherId":"nhcl200006015","title":"耐火材料的超声检测技术应用研究","volume":"34","year":"2000"},{"abstractinfo":"考察了氧化镁加入量对镁铬耐火材料致密化的影响.讨论了气孔率、体积密度和常温耐压强度与氧化镁加入量之间的关系.研究结果表明,适量的氧化镁能够促进镁铬耐火材料的烧结性能和致密化.","authors":[{"authorName":"戴淑平","id":"bc9e2780-f45a-49a6-8498-227eb3d22039","originalAuthorName":"戴淑平"},{"authorName":"于景坤","id":"8037ea98-c286-4aee-bb05-efbbfad195af","originalAuthorName":"于景坤"}],"doi":"10.3969/j.issn.1671-6620.2003.01.009","fpage":"42","id":"e8c17ce4-a5e8-424e-849c-8f6cebdef295","issue":"1","journal":{"abbrevTitle":"CLYYJXB","coverImgSrc":"journal/img/cover/CLYYJXB.jpg","id":"17","issnPpub":"1671-6620","publisherId":"CLYYJXB","title":"材料与冶金学报"},"keywords":[{"id":"cd3fd06b-bf92-43e4-8c9f-ade22dd33a90","keyword":"氧化镁","originalKeyword":"电熔氧化镁"},{"id":"8b8be1dc-0387-4990-8bb8-52b80c82db74","keyword":"致密化","originalKeyword":"致密化"},{"id":"da72c3d2-bad1-4939-987a-59d2f708d8b1","keyword":"镁铬耐火材料","originalKeyword":"镁铬耐火材料"}],"language":"zh","publisherId":"clyyjxb200301009","title":"氧化镁对镁铬耐火材料致密化的影响","volume":"2","year":"2003"},{"abstractinfo":"采用静态浸渍法和动态浸渍法研究了TiO2含量在2.4%~30%之间的含钛渣对镁炭质耐火材料的侵蚀,对侵蚀后试样进行了SEM、XRD和能谱分析,提出了含钛渣对镁炭质耐火材料的侵蚀机理:渣与耐火材料接触并发生作用,渣中的TiO2、FeO等氧化物使耐火材料氧化脱碳并且形成低物;脱碳及低物的出使耐火材料孔隙和通道增多,这反过来又使渣渗入耐火材料内部的速度加快,加速了对耐火材料的侵蚀.","authors":[{"authorName":"刘清才","id":"deeebaad-c17a-4f20-b806-3026586e314d","originalAuthorName":"刘清才"},{"authorName":"许原","id":"ed41b0da-edc8-411a-864b-e4528edcf22d","originalAuthorName":"许原"},{"authorName":"陈登福","id":"0fefe393-edc0-4072-baa0-f9f474357101","originalAuthorName":"陈登福"}],"doi":"10.3969/j.issn.1001-1935.2003.06.002","fpage":"316","id":"29a67a73-9756-4946-af85-f0c995830750","issue":"6","journal":{"abbrevTitle":"NHCL","coverImgSrc":"journal/img/cover/NHCL.jpg","id":"55","issnPpub":"1001-1935","publisherId":"NHCL","title":"耐火材料 "},"keywords":[{"id":"393e37c3-f0e4-4e18-bd00-a22a70229d03","keyword":"含钛渣","originalKeyword":"含钛熔渣"},{"id":"2da29ed8-6a78-4d13-807d-c3991e37eb8c","keyword":"镁炭质耐火材料","originalKeyword":"镁炭质耐火材料"},{"id":"c22838e7-75dd-4204-b922-30093b314de1","keyword":"抗渣性","originalKeyword":"抗渣性"},{"id":"e0d6a574-c977-4327-92ef-b2aa5d04e255","keyword":"浸渍法","originalKeyword":"浸渍法"},{"id":"cbbf141b-a7d9-49d6-96d0-6c6e1104b3f8","keyword":"侵蚀机理","originalKeyword":"侵蚀机理"}],"language":"zh","publisherId":"nhcl200306002","title":"含钛渣对镁炭质耐火材料的侵蚀","volume":"37","year":"2003"},{"abstractinfo":"铝-镁系耐火材料是钢包村用主要材料,损坏的主要机理是渣的侵蚀与渗透.综合分析了近年来渣对铝-镁系耐火材料侵蚀的研究成果,主要包括不同成分的渣对刚玉、方镁石、尖晶石以及由它们组成的耐火材料的侵蚀,并对今后钢包用耐火材料的发展提出了看法.","authors":[{"authorName":"鄢文","id":"8547d282-1a92-4222-86f7-2d8cd37b189b","originalAuthorName":"鄢文"},{"authorName":"李楠","id":"4aaa77c4-0a12-419d-9000-3a31d5d0644b","originalAuthorName":"李楠"}],"doi":"","fpage":"412","id":"2e45c756-e757-4637-9a10-b4ce59c1c492","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":"edae1615-b37d-4469-9b59-52d904ac5c3a","keyword":"刚玉","originalKeyword":"刚玉"},{"id":"867d2f6d-823f-4d5a-97b2-a90e9165162f","keyword":"方镁石","originalKeyword":"方镁石"},{"id":"ecf1b130-9af8-48e8-8142-aabf60d26766","keyword":"尖晶石","originalKeyword":"尖晶石"},{"id":"5a57eb9b-b042-41a6-a4c2-bd761e424e76","keyword":"耐火材料","originalKeyword":"耐火材料"},{"id":"15e3f1ae-ec36-4c0c-8b4b-a871790c2584","keyword":"渣","originalKeyword":"熔渣"},{"id":"02ee740a-540e-4a8f-b1c0-5aefd5876c96","keyword":"侵蚀","originalKeyword":"侵蚀"}],"language":"zh","publisherId":"cldb2008z1125","title":"渣对铝-镁系耐火材料侵蚀的研究进展","volume":"22","year":"2008"},{"abstractinfo":"阐述了玻璃窑全氧燃烧技术的机理、优点以及窑内工作条件的变化,分析了全氧窑内大量碱蒸气和水蒸气的增加对胸墙、池壁、大碹等关键部位耐火材料的侵蚀及全氧耐火材料的选择,展望了国内外全氧玻璃耐火材料的发展方向.","authors":[{"authorName":"陈国平","id":"99483bf4-d2ec-47c2-9d99-60c3e4daad42","originalAuthorName":"陈国平"},{"authorName":"唐保军","id":"a95d4baf-cb63-4dbe-86a2-5302cb2cc0e6","originalAuthorName":"唐保军"},{"authorName":"殷海荣","id":"6a46ae41-a5b5-4ef5-aa51-3bb8772fe3b4","originalAuthorName":"殷海荣"},{"authorName":"李慧","id":"6d4e47a4-80d1-44cb-8579-4ead4cf0de21","originalAuthorName":"李慧"},{"authorName":"章春香","id":"4163cfce-b316-4eda-892e-127ee99c82c3","originalAuthorName":"章春香"}],"doi":"","fpage":"80","id":"6eac9299-37bc-4748-a7f6-5487be6181f9","issue":"11","journal":{"abbrevTitle":"CLDB","coverImgSrc":"journal/img/cover/CLDB.jpg","id":"8","issnPpub":"1005-023X","publisherId":"CLDB","title":"材料导报"},"keywords":[{"id":"3d88f574-4239-4e9f-88c5-55de937d6a5f","keyword":"全氧燃烧","originalKeyword":"全氧燃烧"},{"id":"198ebdf6-cb27-4d20-b2a6-0c2b35a1283d","keyword":"耐火材料","originalKeyword":"耐火材料"},{"id":"1c5ad927-6034-46a8-832d-e6311d5363c0","keyword":"玻璃窑","originalKeyword":"玻璃熔窑"},{"id":"5e6224c7-19d0-416a-8f11-03778d63ff67","keyword":"碱蒸气","originalKeyword":"碱蒸气"}],"language":"zh","publisherId":"cldb200811019","title":"浅析全氧燃烧玻璃耐火材料配置","volume":"22","year":"2008"},{"abstractinfo":"本文分析了各类横焰窑蓄热室的优点及存在的问题,讨论了各种环境下蓄热室及格子体的耐火材料选择。","authors":[{"authorName":"陈永林","id":"8c93fbfb-d7c7-477d-975a-254d0be4d222","originalAuthorName":"陈永林"}],"doi":"","fpage":"106","id":"09528f49-6bd5-439d-9444-5d444d531a06","issue":"2","journal":{"abbrevTitle":"NHCL","coverImgSrc":"journal/img/cover/NHCL.jpg","id":"55","issnPpub":"1001-1935","publisherId":"NHCL","title":"耐火材料 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"},"keywords":[{"id":"e23cab62-a686-4d07-bce5-7d2593cdebda","keyword":"玻璃窑","originalKeyword":"玻璃窑"},{"id":"01ee6979-8e8a-4708-b23b-a129983c43fc","keyword":"蓄热室","originalKeyword":"蓄热室"},{"id":"8fae3b93-4b5c-4343-a0c0-32ff8f255461","keyword":"格子体","originalKeyword":"格子体"}],"language":"zh","publisherId":"nhcl200002015","title":"横焰玻璃窑蓄热室的种类和耐火材料选择","volume":"34","year":"2000"},{"abstractinfo":"本文分析了各类横焰窑蓄热室的优点及存在的问题,讨论了各种环境下蓄热室及格子体的耐火材料选择。","authors":[{"authorName":"陈永林","id":"efead890-b7f4-4c8b-af65-e969b35d41ee","originalAuthorName":"陈永林"}],"doi":"","fpage":"106","id":"2b9a1dd5-6f81-4dd2-9c81-680804f719f7","issue":"2","journal":{"abbrevTitle":"NHCL","coverImgSrc":"journal/img/cover/NHCL.jpg","id":"55","issnPpub":"1001-1935","publisherId":"NHCL","title":"耐火材料 "},"keywords":[{"id":"12a1519c-1773-4421-b4b4-4b60428a4dc4","keyword":"玻璃窑","originalKeyword":"玻璃窑"},{"id":"cff832e1-829c-44c8-8ba5-bcf847735f20","keyword":"蓄热室","originalKeyword":"蓄热室"},{"id":"f92ff8d7-9403-490f-8099-3a46c3b47dcc","keyword":"格子体","originalKeyword":"格子体"}],"language":"zh","publisherId":"nhcl200002015","title":"横焰玻璃窑蓄热室的种类和耐火材料选择","volume":"34","year":"2000"},{"abstractinfo":"介绍了全氧燃烧熔窑的优点,如可节约燃料,减少NOx排放,降低对环境的污染,提高玻璃质量,提高火焰温度、窑熔化能力及窑产量,适当降低窑建设费用,提高窑使用寿命;分析了全氧窑内大量碱蒸气和水蒸气的增加对胸墙、池壁、大碹等关键部位耐火材料的侵蚀及全氧耐火材料的选材,对日产600 t浮法玻璃窑的耐火材料使用进行了对比分析;提出生产优质浮法玻璃和高附加值特种玻璃要采用更为先进的燃烧工艺和玻璃制工艺;并对全氧玻璃耐火材料现状及前景进行了分析和展望.","authors":[{"authorName":"武丽华","id":"1d449a37-88e3-44ef-b7b2-725bd56f1fd8","originalAuthorName":"武丽华"},{"authorName":"陈福","id":"9857565e-b7e3-48aa-aabd-93133bea92cf","originalAuthorName":"陈福"},{"authorName":"安晓燕","id":"ac3db190-b5c7-4347-9876-8026e453a536","originalAuthorName":"安晓燕"},{"authorName":"王晓军","id":"22dc5751-9d59-4f68-9a1b-4cdcaef0fdab","originalAuthorName":"王晓军"}],"doi":"10.3969/j.issn.1001-1935.2010.03.017","fpage":"228","id":"2a230c2f-d707-4be0-868a-d9ff3a1c9021","issue":"3","journal":{"abbrevTitle":"NHCL","coverImgSrc":"journal/img/cover/NHCL.jpg","id":"55","issnPpub":"1001-1935","publisherId":"NHCL","title":"耐火材料 "},"keywords":[{"id":"5e1a8e78-af01-4855-9814-f1d886c6849f","keyword":"全氧燃烧","originalKeyword":"全氧燃烧"},{"id":"f85be037-282c-449f-bffe-efa195099415","keyword":"耐火材料","originalKeyword":"耐火材料"},{"id":"c5c7dfa6-fa08-4e06-8a27-8fb668fa36a4","keyword":"碱蒸气侵蚀","originalKeyword":"碱蒸气侵蚀"},{"id":"917c0ea0-8ab7-4b57-89e2-30dc6bbbd522","keyword":"窑大碹","originalKeyword":"熔窑大碹"}],"language":"zh","publisherId":"nhcl201003017","title":"全氧燃烧玻璃耐火材料的研究进展","volume":"44","year":"2010"},{"abstractinfo":"耐火材料的选择对放射性核废料的玻璃化过程是至关重要的,本文采用动态耐火材料腐蚀速度技术比较了铁磷模拟放射性核废料体和硼硅酸盐体DWPF的腐蚀性质,测量在1000至1300℃之间进行.在铁磷体中,致密氧化铝和氧化铬耐火材料有最低的线腐蚀速度,二氧化硅、锆英石和AZS耐火材料的腐蚀速度比较高 . 同时,氧化铝和氧化铬耐火材料在铁磷体中的腐蚀速度小于它们在硼硅酸盐体DWPF中的腐蚀速度.对氧化铬耐火材料来说,其在三种含有模拟HLW废料的铁磷体中的线腐蚀速度小于0.1mm/day.按照DWPF熔化器的设计标准,Alumina和Zircon商品耐火材料可以用来熔化多种HLW废料.","authors":[{"authorName":"陈福义","id":"2423d326-1a42-46c3-b07e-39b5a1184ddd","originalAuthorName":"陈福义"},{"authorName":"介万奇","id":"323094c5-f975-46b1-b0f2-ebef6dc030a2","originalAuthorName":"介万奇"}],"doi":"10.3969/j.issn.1673-2812.2001.03.010","fpage":"54","id":"1797320b-70d2-4b9c-8c5c-b6d49b553c2c","issue":"3","journal":{"abbrevTitle":"CLKXYGCXB","coverImgSrc":"journal/img/cover/CLKXYGCXB.jpg","id":"13","issnPpub":"1673-2812","publisherId":"CLKXYGCXB","title":"材料科学与工程学报"},"keywords":[{"id":"62c69d4b-bbb2-48da-b3e2-5f8b4cf803ba","keyword":"铁磷体","originalKeyword":"铁磷熔体"},{"id":"7b9633b0-5515-4911-a373-327a4fc6f7e3","keyword":"硼硅酸盐体","originalKeyword":"硼硅酸盐熔体"},{"id":"6f162c60-68d1-4242-8fa9-485ae7f0c791","keyword":"耐火材料","originalKeyword":"耐火材料"},{"id":"deaf868b-6401-4f28-941b-9b3cb6da5371","keyword":"腐蚀","originalKeyword":"腐蚀"}],"language":"zh","publisherId":"clkxygc200103010","title":"铁磷和硼硅酸盐体对耐火材料的腐蚀性能","volume":"19","year":"2001"}],"totalpage":6667,"totalrecord":66661}