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"},"keywords":[{"id":"454efcb5-c7f0-4ecc-bb02-0333cdadfde8","keyword":"镀硬铬","originalKeyword":"镀硬铬"},{"id":"429330e9-adfc-4d43-ab72-18477c7f0e94","keyword":"添加剂","originalKeyword":"添加剂"},{"id":"c60e3da5-eb95-42f8-96ba-53ba02687580","keyword":"高效","originalKeyword":"高效"},{"id":"4df016a9-eb1c-4ac2-9395-d9e6a716ecbe","keyword":"微裂纹","originalKeyword":"微裂纹"}],"language":"zh","publisherId":"bmjs200506029","title":"WD-1型高效镀硬铬添加剂的研制和应用","volume":"34","year":"2005"},{"abstractinfo":"山西繁峙县义兴寨金矿田位于晋东北地区NW向中生代构造岩浆活动带中.以义兴寨、辛庄金矿床为研究对象,分析本区关键控矿因素、成矿物质来源、成矿流体来源及其演化,进而开展矿田成矿机理的研究.结果表明:本区构造具有多期活动的特征,规模较大的NW向区域性张性大断裂为本区的控岩、导矿及配矿构造,次级NNW向压-张扭性断裂裂隙为容矿构造,不同形式、不同级别的构造是成矿最重要的控制因素.S、Pb、H、O同位素组成及微量元素地球化学特征表明,岩浆活动为本区提供了成矿物质及成矿流体.流体包裹体特征及宏观地质特征表明,成矿过程中成矿流体发生了沸腾作用,引起CO2、H2S等的逸失,含金络合物稳定性遭受破坏,导致Au的大规模沉淀,流体的沸腾是矿质沉淀的主要机制.","authors":[{"authorName":"彭南海","id":"194ede2b-f6d8-4529-bd62-d230147a549d","originalAuthorName":"彭南海"},{"authorName":"邵拥军","id":"b4936921-479e-4018-9807-802c4dcce4e1","originalAuthorName":"邵拥军"},{"authorName":"刘忠法","id":"d497a788-a669-4751-8393-6f8eb48279b2","originalAuthorName":"刘忠法"},{"authorName":"汪程","id":"1abb40d1-2002-4951-87c6-596299ce06a9","originalAuthorName":"汪程"}],"doi":"","fpage":"305","id":"ace49ae6-e9d7-4d65-8c2e-d6028dc15e9c","issue":"2","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":"fc8b05f4-ab22-4c1b-a162-717dd434b3c3","keyword":"义兴寨金矿田","originalKeyword":"义兴寨金矿田"},{"id":"cc5bcb6b-17d2-4ebd-8306-65eaedeaf20d","keyword":"关键控矿因素","originalKeyword":"关键控矿因素"},{"id":"9ffe0fca-935b-4e03-896a-7da2a3cf4ddb","keyword":"成矿物质","originalKeyword":"成矿物质"},{"id":"501342b5-23fc-4496-a7a7-bc1b8c2ce8f8","keyword":"成矿流体","originalKeyword":"成矿流体"},{"id":"6a668834-040a-42e1-b2d4-c7e64889c99a","keyword":"演化","originalKeyword":"演化"},{"id":"a421ffc5-9ac0-4df1-a4f0-c3dff3b53563","keyword":"成矿机理","originalKeyword":"成矿机理"}],"language":"zh","publisherId":"zgysjsxb201702011","title":"山西义兴寨金矿田成矿机理研究:来自同位素和流体包裹体的证据","volume":"27","year":"2017"},{"abstractinfo":"通过对白云鄂博矿中稀土赋存情况的分析,选取随铁开采的稀土作为主要研究对象,通过对粒度、药剂作用以及温度、浓度、pH值等因素对稀土选别的影响,总体分析白云鄂博矿稀土的分选特性,并以此为基础对白云鄂博矿的稀土选别工艺与因素控制提出科学的见解.最终确定,粒度20 μm~ 50 μm、温度不低于60℃、粗选浓度55% ~65%时,白云鄂博矿稀土浮选作业条件最好.","authors":[{"authorName":"陈宏超","id":"98ea382e-dd87-416a-84fd-c063a3f27baf","originalAuthorName":"陈宏超"}],"doi":"","fpage":"78","id":"cef2dead-9654-462b-8f36-964b77439f45","issue":"4","journal":{"abbrevTitle":"XT","coverImgSrc":"journal/img/cover/XT.jpg","id":"65","issnPpub":"1004-0277","publisherId":"XT","title":"稀土"},"keywords":[{"id":"0df43db5-1bc0-4d7f-87bc-d1a3c0e53a4d","keyword":"白云鄂博矿","originalKeyword":"白云鄂博矿"},{"id":"0507ed0e-f5d9-493e-952c-5612594b5a44","keyword":"稀土","originalKeyword":"稀土"},{"id":"094e7107-b399-44a3-80a2-c2242df6446d","keyword":"因素","originalKeyword":"因素"},{"id":"0e83e9e5-f416-47bd-9aa9-494af550eb35","keyword":"选别","originalKeyword":"选别"}],"language":"zh","publisherId":"xitu201404015","title":"白云鄂博矿稀土选别研究","volume":"35","year":"2014"},{"abstractinfo":"针对白云鄂博多金属矿使用X射线快速预选低品位矿石的方法.由于测量时间极短以及目标元素品位很低,导致X射线荧光光子计数较低,使得传统的光谱仪无法应用.基于峰背比来度量目标元素的含量,并对传统光谱仪所使用的方法进行了改进,使其能够在不到0.1秒的时间内测量出低品位的La +Ce在矿石中的含量.当品位大于平均值时,测量的精确性能够很好地满足工业分选的需要.","authors":[{"authorName":"赵德胜","id":"02914feb-f081-4899-bb91-5bebf44b9589","originalAuthorName":"赵德胜"},{"authorName":"王建英","id":"df6a7cda-7fb2-4fa0-a8ee-07a0f4fa3b77","originalAuthorName":"王建英"},{"authorName":"张铁柱","id":"b2a09289-f4d0-4f78-b9db-84116fdd4452","originalAuthorName":"张铁柱"},{"authorName":"李保卫","id":"26822f27-654c-4a6d-941b-a0e324b299d7","originalAuthorName":"李保卫"},{"authorName":"张雪峰","id":"dcce8ad9-afcb-4465-b1db-821ef193fb3c","originalAuthorName":"张雪峰"}],"doi":"10.16533/J.CNKI.15-1099/TF.201604017","fpage":"101","id":"b623ee96-0056-40d5-a55b-2d351c9c1ded","issue":"4","journal":{"abbrevTitle":"XT","coverImgSrc":"journal/img/cover/XT.jpg","id":"65","issnPpub":"1004-0277","publisherId":"XT","title":"稀土"},"keywords":[{"id":"72480f3f-e390-4723-ab98-5095dd9bfc7a","keyword":"白云鄂博矿","originalKeyword":"白云鄂博矿"},{"id":"d8b58dc8-0a9e-4011-9acc-82c4bd9cfebb","keyword":"EDXRF","originalKeyword":"EDXRF"},{"id":"b0d1cc4e-078d-40d9-9002-d907400190f1","keyword":"快速测量","originalKeyword":"快速测量"},{"id":"486fabc0-b983-42cf-9520-747a820d8cc5","keyword":"峰背比法","originalKeyword":"峰背比法"}],"language":"zh","publisherId":"xitu201604017","title":"白云鄂博矿有价元素La和Ce的X荧光快速测量","volume":"37","year":"2016"},{"abstractinfo":"通过可视流化床研究不同温度和氢气流速下对还原白云鄂博铁精矿的影响.试验表明,同一温度下,氢气流速的增加有利于提高流化还原反应的还原效率,但这种作用在低温下更为明显.随温度的升高,流化还原效率提高,但高温下流化效率增长幅度小于低温.应用热重分析研究了不同温度下氢气还原白云鄂博铁精矿的还原动力学,结果表明:其反应的限制性环节为内扩散,活化能随还原时间呈现先下降后上升的现象,而表观活化能的降低更有利于反应的加速进行.在试验条件下,5 ~ 10 min时的还原反应速度较快.","authors":[{"authorName":"裴晓宇","id":"d810f6ff-2fdc-4a94-9cb3-c464900fd5b0","originalAuthorName":"裴晓宇"},{"authorName":"赵文广","id":"430668d2-1cc3-4070-b53e-a92f0639784a","originalAuthorName":"赵文广"},{"authorName":"赵团","id":"1b88dccb-1f69-4e38-b1d1-6f003c357f85","originalAuthorName":"赵团"},{"authorName":"彭军","id":"b80e14ca-58cb-40a0-ba40-e46b51ae3a9a","originalAuthorName":"彭军"},{"authorName":"安胜利","id":"517fd316-96fc-4cfb-90c8-4893c7ee2565","originalAuthorName":"安胜利"}],"doi":"10.7513/j.issn.1004-7638.2017.01.023","fpage":"132","id":"aa711b81-5312-494f-99a5-f42aae2c2fae","issue":"1","journal":{"abbrevTitle":"GTFT","coverImgSrc":"journal/img/cover/gtft1.jpg","id":"28","issnPpub":"1004-7638","publisherId":"GTFT","title":"钢铁钒钛"},"keywords":[{"id":"532f9bd8-0531-4e30-aa51-a24cff3d7486","keyword":"白云鄂博铁精矿","originalKeyword":"白云鄂博铁精矿"},{"id":"aec4acb3-e986-4d78-86d3-4790d52a850a","keyword":"氢气还原","originalKeyword":"氢气还原"},{"id":"c78185c8-048b-49ec-9f36-02bbb06b7d10","keyword":"流态化","originalKeyword":"流态化"}],"language":"zh","publisherId":"gtft201701023","title":"白云鄂博铁精矿氢气流化还原试验","volume":"38","year":"2017"},{"abstractinfo":"以白云鄂博二次选后尾矿和粉煤灰为主要原料,采用熔融法制备得到了CaO-MgO-Al2O3-SiO2系尾矿微晶玻璃.利用XRD、DTA、SEM等测试手段研究了SiO2/CaO质量比对微晶玻璃结构及物化性能的影响.结果表明:随着SiO2/CaO质量比的增加,基础玻璃放热峰右移、放热峰面积减小;微晶玻璃主晶相由辉石相转变为磁铁矿相;析出晶粒尺寸逐渐减小、晶化程度逐渐降低;微晶玻璃相关物化特性降低.","authors":[{"authorName":"杜永胜","id":"3f0ff94e-7227-474a-92cf-5e440091af1e","originalAuthorName":"杜永胜"},{"authorName":"李保卫","id":"88cc00c2-ea6b-49e3-a884-8cf3366d524c","originalAuthorName":"李保卫"},{"authorName":"张雪峰","id":"5743513e-dbe2-4840-a88a-06b68e6efb31","originalAuthorName":"张雪峰"},{"authorName":"贾晓林","id":"a9809269-5533-41dd-bb65-0b84f53a8060","originalAuthorName":"贾晓林"},{"authorName":"赵鸣","id":"2f59e7a2-64f1-42a2-b5a6-4ad9b8fe0586","originalAuthorName":"赵鸣"},{"authorName":"陈华","id":"0d4c9f4b-bc1e-48d5-abc1-9f8473dd5f56","originalAuthorName":"陈华"},{"authorName":"邓磊波","id":"b9c6b4fa-294a-432f-843c-e89c0881c095","originalAuthorName":"邓磊波"}],"doi":"","fpage":"1092","id":"cd56f464-cd7c-43ee-a11b-8aed998c415e","issue":"5","journal":{"abbrevTitle":"GSYTB","coverImgSrc":"journal/img/cover/GSYTB.jpg","id":"36","issnPpub":"1001-1625","publisherId":"GSYTB","title":"硅酸盐通报 "},"keywords":[{"id":"eeff0d65-7d6b-4c18-88dd-c00aceb53bb4","keyword":"微晶玻璃","originalKeyword":"微晶玻璃"},{"id":"cb5f3e12-e80d-441f-b54c-b326a3a47f8a","keyword":"SiO2/CaO比","originalKeyword":"SiO2/CaO比"},{"id":"0c4f9d4d-24c7-4de8-b0df-2c3b12c56b25","keyword":"白云鄂博尾矿","originalKeyword":"白云鄂博尾矿"},{"id":"e1db4c32-ae6e-4f28-8504-f2aca3843f7b","keyword":"辉石相","originalKeyword":"辉石相"}],"language":"zh","publisherId":"gsytb201205011","title":"SiO2/CaO质量比对白云鄂博尾矿微晶玻璃的影响研究","volume":"31","year":"2012"},{"abstractinfo":"研究了合金化高锰钢鄂板材料的组织、力学性能,分析了其耐磨性,结果表明含硼合金化高锰钢鄂板.寿命较原来的普通高锰钢提高了2.3倍;合金元素B,Cr,RE改善了高锰钢的组织和性能,是颚式破碎机鄂板寿命提高的主要原因;合金化高锰钢的韧脆转变温度为-20℃.","authors":[{"authorName":"辛啟斌","id":"e03398b6-0c75-4cb3-81f4-2c0370f1d35e","originalAuthorName":"辛啟斌"},{"authorName":"查向东","id":"4e962b9c-e053-4d1a-abac-a78cd5beb2b5","originalAuthorName":"查向东"},{"authorName":"杨中东","id":"4a03cff7-aa77-40aa-bcdf-947c9cc6154e","originalAuthorName":"杨中东"},{"authorName":"何奖爱","id":"7d5f75c8-2847-4c78-bde4-dd58ea81d0ac","originalAuthorName":"何奖爱"},{"authorName":"汪云则","id":"0d33e28f-c1ff-4b85-a2fd-7c61f63a3fa9","originalAuthorName":"汪云则"}],"doi":"10.3969/j.issn.1671-6620.2009.02.011","fpage":"125","id":"4cf30072-b0f6-4bcc-b421-66accc755902","issue":"2","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":"ca89b72d-a9cc-4f3a-965c-57b436e323c1","keyword":"含硼高锰钢","originalKeyword":"含硼高锰钢"},{"id":"a1500fa9-dea4-403c-83b1-496690724cbb","keyword":"合金化","originalKeyword":"合金化"},{"id":"13e6cb0b-81d2-4e75-9683-5fcb60f45a48","keyword":"低温性能","originalKeyword":"低温性能"},{"id":"327ae364-85aa-46d8-a254-37c58ce23441","keyword":"韧脆转变温度","originalKeyword":"韧脆转变温度"},{"id":"e33d2787-ef54-4206-a831-56369df8dc45","keyword":"耐磨性","originalKeyword":"耐磨性"}],"language":"zh","publisherId":"clyyjxb200902011","title":"含硼合金化高锰钢鄂板的应用研究","volume":"8","year":"2009"},{"abstractinfo":"介绍了白云鄂博稀土、铌资源特征及分布特点,总结了白云鄂博铌的选矿、冶炼方法,并提出了一些新思路:在综合回收白云鄂博资源的前提下,可以采取选冶联合的方式,先提钪、后提铌;或者制成复合材料,提高铌的利用率.","authors":[{"authorName":"郭财胜","id":"69588050-f700-421e-b949-2dc8e10db3ea","originalAuthorName":"郭财胜"},{"authorName":"李梅","id":"b826874e-a967-468e-abfd-bc95e9b930ea","originalAuthorName":"李梅"},{"authorName":"柳召刚","id":"827df896-1b8b-4b0b-bafb-e9be85d5f1ed","originalAuthorName":"柳召刚"},{"authorName":"张栋梁","id":"3d0f3fe5-d5a8-4c17-880f-19a859b85e82","originalAuthorName":"张栋梁"},{"authorName":"高凯","id":"0feae55a-d927-4d80-90d3-19fa6c963c3f","originalAuthorName":"高凯"}],"doi":"","fpage":"96","id":"ad95fc47-f322-469f-a434-e7c606d2222c","issue":"1","journal":{"abbrevTitle":"XT","coverImgSrc":"journal/img/cover/XT.jpg","id":"65","issnPpub":"1004-0277","publisherId":"XT","title":"稀土"},"keywords":[{"id":"2a0df5a6-465d-4638-ab30-0c1116d6061d","keyword":"铌","originalKeyword":"铌"},{"id":"3f3a531c-7a03-4d3c-a747-22d948aa9ca2","keyword":"铌铁","originalKeyword":"铌铁"},{"id":"ede08693-356d-49d0-9c7e-235b06799586","keyword":"铌钪","originalKeyword":"铌钪"},{"id":"551353e5-2e46-4a6b-ad75-e8f5356bfa06","keyword":"稀土","originalKeyword":"稀土"}],"language":"zh","publisherId":"xitu201401019","title":"白云鄂博稀土、铌资源综合利用现状及新思路","volume":"35","year":"2014"},{"abstractinfo":"通过对白云鄂博稀土矿床的地质概况、物质组成以及以往地质资料的分析,阐述了在白云鄂博主、东、西矿深部及周边进行探矿的必要性和可行性,提出了探矿设想并预测可求得较大稀土矿资源储量的可能性.","authors":[{"authorName":"杨占峰","id":"6dfd5941-f971-4cec-a56b-b45a4918cb4a","originalAuthorName":"杨占峰"},{"authorName":"柳建勇","id":"f237b4a3-2500-4ae1-885f-85dbda8b3ff5","originalAuthorName":"柳建勇"}],"doi":"10.3969/j.issn.1004-0277.2007.06.020","fpage":"84","id":"a91492c4-87e2-449e-9e9e-08debcca9ac9","issue":"6","journal":{"abbrevTitle":"XT","coverImgSrc":"journal/img/cover/XT.jpg","id":"65","issnPpub":"1004-0277","publisherId":"XT","title":"稀土"},"keywords":[{"id":"18143c1c-b65f-467f-8381-cab8c13fdc41","keyword":"白云鄂博","originalKeyword":"白云鄂博"},{"id":"1226107e-a7c9-4099-92a2-0f3fdcde0ac3","keyword":"稀土矿床","originalKeyword":"稀土矿床"},{"id":"dc403edf-f0f5-4bfe-b15c-4efc266d5951","keyword":"探矿","originalKeyword":"探矿"},{"id":"d2f47a4d-3a25-418a-96d7-e46416644414","keyword":"储量","originalKeyword":"储量"}],"language":"zh","publisherId":"xitu200706020","title":"白云鄂博稀土矿床探矿的必要性与可行性探讨","volume":"28","year":"2007"},{"abstractinfo":"用受迫振动法测量了夹角为60°和129.5°的铝双晶的内耗,都观测到一个温度内耗峰,峰巅温度是200℃左右(频率1Hz)激活能为0.88eV对于这个内耗峰的机制做了初步解释。","authors":[{"authorName":"关幸生","id":"8e7fa0a7-4b2b-43eb-ab0e-385b95cbfd10","originalAuthorName":"关幸生"},{"authorName":"葛庭燧","id":"67b972cc-f4c0-4797-9aed-85c45cb1ce80","originalAuthorName":"葛庭燧"}],"categoryName":"|","doi":"","fpage":"1","id":"2aff307d-21f5-4a68-a5ac-0b1cd08864dc","issue":"8","journal":{"abbrevTitle":"JSXB","coverImgSrc":"journal/img/cover/JSXB.jpg","id":"48","issnPpub":"0412-1961","publisherId":"JSXB","title":"金属学报"},"keywords":[{"id":"ed61f5ab-f338-42d9-b668-0b6a379c39fe","keyword":"铝双晶","originalKeyword":"铝双晶"},{"id":"36aafee6-63d2-4133-8924-6e4a2ec321a9","keyword":"grain 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