{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"","authors":[{"authorName":"王晓南","id":"2a969616-8846-43ce-9627-35eaedb30e00","originalAuthorName":"王晓南"},{"authorName":"朱虹","id":"f31952dc-792a-4956-85b0-d3e2f8a5fa36","originalAuthorName":"朱虹"},{"authorName":"夏伟琴","id":"c1f56e29-f362-441d-a234-e16976cc5752","originalAuthorName":"夏伟琴"},{"authorName":"刘化章","id":"17e46bdb-8b68-4c05-b5c6-c8c5b3ddad72","originalAuthorName":"刘化章"}],"doi":"","fpage":"276","id":"600681c1-379e-4020-9cd4-bfa55f617e75","issue":"3","journal":{"abbrevTitle":"CHXB","coverImgSrc":"journal/img/cover/CHXB.jpg","id":"18","issnPpub":"0253-9837","publisherId":"CHXB","title":"催化学报 "},"keywords":[{"id":"f19e7c52-40d4-4597-87f7-24a4521530b8","keyword":"钌","originalKeyword":"钌"},{"id":"48e43188-321e-4378-9e72-a6ec4e2cff64","keyword":"活性炭","originalKeyword":"活性炭"},{"id":"62c4cd7a-cdff-4814-856d-6399b00afe3c","keyword":"负载型催化剂","originalKeyword":"负载型催化剂"},{"id":"7e7b859b-6c4e-42b3-a3d0-d4aea2d316c8","keyword":"氨合成","originalKeyword":"氨合成"}],"language":"zh","publisherId":"cuihuaxb200003021","title":"活性炭负载钌基氨合成催化剂的制备和催化活性","volume":"21","year":"2000"},{"abstractinfo":"鞍钢6号高炉采用的是马琴式外燃式热风炉,该热风炉已安全高效运行了近30年(其间曾3次更换砖格子和陶瓷燃烧器),其热风温度最高达到1310℃,目前风温仍维持在1100℃以上.经分析认为,该热风炉高温长寿的原因主要是炉型设计和炉衬结构独特、耐火材料选择合理、砌筑方式正确、施工质量优良等.","authors":[{"authorName":"孙永芳","id":"043c4d8f-6874-456d-bded-7acc7284e5f2","originalAuthorName":"孙永芳"},{"authorName":"唐兴智","id":"a6c8a8a9-2926-448d-a676-9262cdabda73","originalAuthorName":"唐兴智"},{"authorName":"李震","id":"afa7ff01-c28b-4ac9-9dcd-a1e86a9ee6e0","originalAuthorName":"李震"}],"doi":"","fpage":"28","id":"0297575e-4eb0-41f8-b2e0-f0de27513569","issue":"1","journal":{"abbrevTitle":"GT","coverImgSrc":"journal/img/cover/GT.jpg","id":"27","issnPpub":"0449-749X","publisherId":"GT","title":"钢铁"},"keywords":[{"id":"f3e3bc01-e894-4c42-8914-2e4909db104c","keyword":"马琴式外燃式热风炉","originalKeyword":"马琴式外燃式热风炉"},{"id":"e7c4d1de-b2c7-430f-9ae3-97b0eea60a25","keyword":"高温","originalKeyword":"高温"},{"id":"0866015a-3322-471f-8cea-76c62003d2f9","keyword":"长寿","originalKeyword":"长寿"}],"language":"zh","publisherId":"gt200601006","title":"马琴式外燃式热风炉高温长寿研究","volume":"41","year":"2006"},{"abstractinfo":"采用特级矾土、黏土为主要原料,液体磷酸盐做结合剂,制备了6种满足不同施工方式的w(Al2O3)>70%的高铝可塑料,并采用马夏值测定仪测定了可塑料的可塑性.结果表明:马夏值测定法可以用于耐火可塑料的可塑性测定,而且其检测范围更宽,可测定采用橡皮锤人工捣打或风镐机械捣打等不同施工方式的可塑料的可塑性.橡皮锤人工捣打可塑料的马夏值范围为1.36~3.74 MPa,风镐机械捣打可塑料的马夏值范围为7.1~22 MPa.","authors":[{"authorName":"曹喜营","id":"75c4caa4-cb66-4650-9067-a96802cbd298","originalAuthorName":"曹喜营"},{"authorName":"张三华","id":"43ffecdb-33e9-4587-943d-7c3cca4ceb55","originalAuthorName":"张三华"},{"authorName":"石会营","id":"74153ff2-9fb1-4c8a-ab01-11ea89d857bb","originalAuthorName":"石会营"},{"authorName":"王金相","id":"2a1842f6-d156-4294-9978-b13ab33937d2","originalAuthorName":"王金相"},{"authorName":"洪彦若","id":"1ba110b1-55eb-4bdb-9617-fa7f68da0f6e","originalAuthorName":"洪彦若"},{"authorName":"李再耕","id":"bf228091-639a-406c-979b-de66faebbf18","originalAuthorName":"李再耕"}],"doi":"10.3969/j.issn.1001-1935.2009.06.015","fpage":"456","id":"1f9ca5f2-d90c-4817-a0ea-f1443735996c","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":"c6527163-0345-4f02-86c3-414f7ac5e25e","keyword":"耐火可塑料","originalKeyword":"耐火可塑料"},{"id":"17abe30e-e375-4791-90c4-3902889717d3","keyword":"马夏值","originalKeyword":"马夏值"},{"id":"e85deede-fb42-4f63-94ec-fc04241724db","keyword":"可塑性","originalKeyword":"可塑性"},{"id":"6b06311f-183d-4f12-956d-3348733d141c","keyword":"施工方法","originalKeyword":"施工方法"}],"language":"zh","publisherId":"nhcl200906015","title":"耐火可塑料马夏值的测定","volume":"43","year":"2009"},{"abstractinfo":"夏甸金矿充分利用现有的提升系统,将相邻两矿区提升系统统筹考虑,进行优化,应用取得了良好的经济效益和社会效益.","authors":[{"authorName":"郭建军","id":"d945edcb-4fdd-499c-8977-99e04e8f8cf6","originalAuthorName":"郭建军"},{"authorName":"江国建","id":"a7c42ef0-b58e-487a-9090-4531806698d3","originalAuthorName":"江国建"},{"authorName":"汪宗文","id":"34a7195c-e1a3-40db-bca3-9c627c0ac75b","originalAuthorName":"汪宗文"}],"doi":"10.3969/j.issn.1001-1277.2002.11.007","fpage":"23","id":"e2b820e3-93d9-40ef-9daa-e7b94b145154","issue":"11","journal":{"abbrevTitle":"HJ","coverImgSrc":"journal/img/cover/HJ.jpg","id":"44","issnPpub":"1001-1277","publisherId":"HJ","title":"黄金"},"keywords":[{"id":"5859fd11-c34e-4afd-82a8-c123fb734309","keyword":"提升系统","originalKeyword":"提升系统"},{"id":"37fa81cf-d76a-4286-b154-1093df03403f","keyword":"优化","originalKeyword":"优化"},{"id":"c2f48dcc-29af-4ad1-92e0-d6a3b0d92b7d","keyword":"应用","originalKeyword":"应用"}],"language":"zh","publisherId":"huangj200211007","title":"夏甸金矿提升系统优化与应用","volume":"23","year":"2002"},{"abstractinfo":"为增加夏甸金矿分级尾砂供应量,提高了全尾砂旋流器分级产率并开展了相关充填材料试验.介绍了分级尾砂胶结充填体强度试验、分级尾砂充填料浆塌落度试验及分级尾砂胶结充填料浆凝固时间测定试验.试验结果表明,夏甸金矿选厂全尾砂经旋流器分级的尾砂是一种良好的充填骨料,可以作为充填骨料进行充填.试验所得数据和结论对于矿山充填作业具有直接的指导意义.","authors":[{"authorName":"唐占信","id":"aa836ffb-04bf-4cf2-b40d-15d21cec1bcc","originalAuthorName":"唐占信"},{"authorName":"王金波","id":"c21424a5-101a-4d3a-8db8-7c44266b56d0","originalAuthorName":"王金波"},{"authorName":"周东良","id":"aa957e67-c6f6-4bca-b58f-690e533d83a0","originalAuthorName":"周东良"},{"authorName":"秦秀合","id":"e0c97c79-3a9e-4842-8554-237497382d73","originalAuthorName":"秦秀合"},{"authorName":"何少博","id":"9db332f4-b62b-4f75-b856-93722da06c0d","originalAuthorName":"何少博"},{"authorName":"林卫星","id":"74f43218-c920-45de-915e-588bdba33e0d","originalAuthorName":"林卫星"}],"doi":"10.11792/hj20160610","fpage":"43","id":"a04551f3-5105-4102-8b07-480b3e6c1324","issue":"6","journal":{"abbrevTitle":"HJ","coverImgSrc":"journal/img/cover/HJ.jpg","id":"44","issnPpub":"1001-1277","publisherId":"HJ","title":"黄金"},"keywords":[{"id":"b2a05bf2-7eac-4d01-bd4e-87ea233a935b","keyword":"充填采矿","originalKeyword":"充填采矿"},{"id":"6d635d11-a300-4f28-8dce-b57692cad022","keyword":"分级尾砂","originalKeyword":"分级尾砂"},{"id":"02d88ffe-26d5-40fc-80bd-a18d7efb3746","keyword":"强度","originalKeyword":"强度"},{"id":"a6fa0929-3d36-4d96-8a85-7a29d766b0a2","keyword":"塌落度","originalKeyword":"塌落度"},{"id":"a259b871-69b8-49a0-9377-4ef797df93d0","keyword":"凝结时间","originalKeyword":"凝结时间"}],"language":"zh","publisherId":"huangj201606014","title":"夏甸金矿分级尾砂充填材料试验研究","volume":"37","year":"2016"},{"abstractinfo":"对荷叶进行多阶温度炭化得到前驱炭材料,将材料与科琴黑(KB)、聚四氟乙烯(PTFE)按照2∶2∶3的质量比球磨混合后真空抽滤制备一种锂硫电池中间层柔性材料,PTFE/KB-C复合材料的多孔结构能为高阶硫化物 Li2 Sn(4≤n≤8)的进一步还原提供较多的三相反应位点,并利用 PTFE/KB-C 复合材料良好的多层多孔化学吸附作用来抑制可溶性多硫化物的穿梭。该中间层在以纯硫材料为正极的锂硫电池电性能测试表征中,1.0 C(电流密度1675 mA·g-1)倍率下首次放电比容量达1350 mAh·g-1,没有硝酸锂添加剂条件下经过100次充放电循环后比容量依旧保持在960 mAh·g-1,库伦效率基本在95%以上,保持了良好的循环稳定性。","authors":[{"authorName":"闫崇","id":"837c1831-ad1b-4019-894f-ebb6e23495b2","originalAuthorName":"闫崇"},{"authorName":"李向南","id":"0b089504-aff5-464b-aa83-b6c3279437b4","originalAuthorName":"李向南"},{"authorName":"曹朝霞","id":"3c504712-d3bc-4bb8-9dcb-7a9573ead9cc","originalAuthorName":"曹朝霞"},{"authorName":"田栓宝","id":"11639389-5643-4934-93d8-8969a73ddfb1","originalAuthorName":"田栓宝"},{"authorName":"尹艳红","id":"c7710813-16bb-4ae5-ad90-6ec4ca88f399","originalAuthorName":"尹艳红"},{"authorName":"杨书廷","id":"2583b719-11db-4575-b2f8-c0950121fe57","originalAuthorName":"杨书廷"}],"doi":"10.13801/j.cnki.fhclxb.20151209.002","fpage":"2390","id":"9c34bd3d-5a33-41d6-b7a7-e99b84f78a7a","issue":"10","journal":{"abbrevTitle":"FHCLXB","coverImgSrc":"journal/img/cover/FHCLXB.jpg","id":"26","issnPpub":"1000-3851","publisherId":"FHCLXB","title":"复合材料学报"},"keywords":[{"id":"671b7538-11c1-4c7b-af03-40ea494cbf39","keyword":"锂硫电池","originalKeyword":"锂硫电池"},{"id":"15d78504-0301-4d65-874d-b575f07b12a1","keyword":"中间层","originalKeyword":"中间层"},{"id":"18d8f2a8-ebc8-4d1f-9817-fcc63fb9fa24","keyword":"正极","originalKeyword":"正极"},{"id":"86989045-5d42-4776-9d47-659d040f5870","keyword":"穿梭效应","originalKeyword":"穿梭效应"},{"id":"ff9aff79-b79c-4010-8ab0-818148312c36","keyword":"荷叶","originalKeyword":"荷叶"}],"language":"zh","publisherId":"fhclxb201610031","title":"高能球磨法制备PTFE/科琴黑-C柔性复合材料及其电化学应用","volume":"33","year":"2016"},{"abstractinfo":"本文通过熔融共混法制备了多种聚丙烯(PP)基复合材料,研究了添加不同含量石墨烯微片(GNP)的GNP/PP复合材料的导热和导电性能以及科琴黑(KB)和气相生长碳纤维(VGCF)对GNP/PP复合材料导热和导电性能的影响.结果表明,随着GNP含量的增加,GNP/PP复合材料的导热系数不断增加,当GNP含量为60%时,GNP/PP复合材料的导热系数比纯PP(0.096 W/m·K)提高了12倍多;当在GNP含量为10%的GNP/PP复合材料中添加KB或VGCF后,该复合材料的导热和导电性能明显提高;扫描电镜照片表明KB或VGCF分布在GNP团聚体之间的PP基体中,GNP团聚体通过KB或VGCF链接形成通路,使得PP基体中形成了更多和更为完善的导电导热网络.","authors":[{"authorName":"汪文","id":"159a00ff-96c1-4c4e-b21c-719b4b7af272","originalAuthorName":"汪文"},{"authorName":"王方明","id":"766895d8-ff61-4d0d-b7af-9f746fd35cf4","originalAuthorName":"王方明"},{"authorName":"刘滨","id":"14c71b5a-c770-47ac-a2a5-9ef520ac7cfa","originalAuthorName":"刘滨"},{"authorName":"邱文莲","id":"d8fa2eae-b1a7-44ba-a09d-1934d965ac8d","originalAuthorName":"邱文莲"},{"authorName":"杨红梅","id":"82c22ec7-8125-4d90-94aa-04125a2a4132","originalAuthorName":"杨红梅"},{"authorName":"沈烈","id":"b1421395-eebd-40ae-8f46-bd9a72c75490","originalAuthorName":"沈烈"}],"doi":"","fpage":"859","id":"f0265a2a-250c-4ac6-a468-49463dbe6140","issue":"6","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":"c0891f15-46cc-4b92-bb07-96785784d8bc","keyword":"科琴黑","originalKeyword":"科琴黑"},{"id":"d3c0651f-c18a-4461-8c9b-f0b2a0cf7e1c","keyword":"气相生长碳纤维","originalKeyword":"气相生长碳纤维"},{"id":"4d4a4c12-2c2a-49a0-a391-d7f7dc7edc8e","keyword":"石墨烯微片","originalKeyword":"石墨烯微片"},{"id":"d8608574-491a-4ac9-859f-0cc2534e1f22","keyword":"导热","originalKeyword":"导热"},{"id":"27494609-3d4c-4ab3-b66a-3b9770e22af6","keyword":"导电","originalKeyword":"导电"}],"language":"zh","publisherId":"clkxygc201306017","title":"科琴黑和气相生长碳纤维对石墨烯微片/聚丙烯复合材料性能的影响","volume":"31","year":"2013"},{"abstractinfo":"介绍了我国新制定的钢材夏比缺口冲击仪器化试验方法国家标准,并对我国标准与国际标准ISO14556:2000的技术内容进行了比较.","authors":[{"authorName":"李久林","id":"1b654f81-dc7a-429c-86b8-21590479e5df","originalAuthorName":"李久林"}],"doi":"10.3969/j.issn.1000-7571.2004.z2.001","fpage":"474","id":"4e6db22e-44dd-4868-8b10-c65b3b80f166","issue":"z2","journal":{"abbrevTitle":"YJFX","coverImgSrc":"journal/img/cover/YJFX.jpg","id":"71","issnPpub":"1000-7571","publisherId":"YJFX","title":"冶金分析 "},"keywords":[{"id":"116aea7d-bf18-44a5-8815-93e70aa5d588","keyword":"钢材","originalKeyword":"钢材"},{"id":"8aec6e60-3947-4d2e-a264-beff171446e5","keyword":"夏比缺口冲击","originalKeyword":"夏比缺口冲击"},{"id":"2e9a9cac-b325-4244-b8a7-86c3d958fac9","keyword":"仪器化","originalKeyword":"仪器化"},{"id":"06a8ee65-b6e5-4d3a-972d-04213c00862f","keyword":"标准化","originalKeyword":"标准化"}],"language":"zh","publisherId":"yjfx2004z2001","title":"钢材夏比缺口冲击仪器化试验方法的标准化","volume":"24","year":"2004"},{"abstractinfo":"使用夏比摆锤冲击试验机对C/C和C/SiC两种复合材料进行了冲击试验,打击瞬时线速率为2.9 m/s,刀刃半径为2 mm.使用光学显微镜和扫描电子显微镜观察了试样断口形貌.结果表明:C/C和C/SiC两种复合材料的夏比冲击能量随着材料密度的增加而减小,冲击能量与密度基本呈线性关系.密度低的C/C和C/SiC复合材料冲击后的断口参差不齐,有大量纤维束和纤维拔出,夏比冲击韧度较高;高密度试样的宏观断口较为平整,仅有少量的纤维拔出,具有脆性断裂特征.","authors":[{"authorName":"严科飞","id":"3b146772-506d-4dac-b2af-339393062314","originalAuthorName":"严科飞"},{"authorName":"张程煜","id":"1e66f4d6-3a30-4f56-8ad9-a9cedc573581","originalAuthorName":"张程煜"},{"authorName":"乔生儒","id":"b3822c0f-9bbf-4b37-a4fb-a1699e893f10","originalAuthorName":"乔生儒"},{"authorName":"韩栋","id":"0e0c6509-8719-4360-b499-e3b1f1672ca1","originalAuthorName":"韩栋"},{"authorName":"李玫","id":"6548612e-46de-4011-bbb8-fc5cb1cb5814","originalAuthorName":"李玫"}],"doi":"10.3969/j.issn.1005-5053.2011.2.018","fpage":"95","id":"74da2f84-aa3b-40ec-803b-e40aa2840947","issue":"2","journal":{"abbrevTitle":"HKCLXB","coverImgSrc":"journal/img/cover/HKCLXB.jpg","id":"41","issnPpub":"1005-5053","publisherId":"HKCLXB","title":"航空材料学报"},"keywords":[{"id":"b394ef18-1576-4766-bdd7-a0f601051f32","keyword":"夏比冲击","originalKeyword":"夏比冲击"},{"id":"76314d6a-70e9-42b6-ace6-5d21eb7c5a4a","keyword":"冲击能量","originalKeyword":"冲击能量"},{"id":"1cc6b093-54fe-45fa-b0e8-f4f3ee9e3583","keyword":"密度","originalKeyword":"密度"}],"language":"zh","publisherId":"hkclxb201102018","title":"C/C和C/SiC复合材料的夏比冲击性能研究","volume":"31","year":"2011"},{"abstractinfo":"为确保分段崩落采矿法的应用质量,针对夏甸金矿的矿床条件,在室内模拟试验研究了矿岩为同种物料时的散体流动规律.模拟试验研究结果为分段崩落采矿法采场结构优化与放矿控制管理提供了依据.","authors":[{"authorName":"董鑫","id":"d21413d0-7a16-4be7-80e0-b98ab5455313","originalAuthorName":"董鑫"}],"doi":"10.3969/j.issn.1001-1277.2009.08.007","fpage":"24","id":"1d54b2cb-8267-4e5b-9dba-dd552303852b","issue":"8","journal":{"abbrevTitle":"HJ","coverImgSrc":"journal/img/cover/HJ.jpg","id":"44","issnPpub":"1001-1277","publisherId":"HJ","title":"黄金"},"keywords":[{"id":"022b8919-396c-403e-9e8c-7c7efbec160a","keyword":"散体","originalKeyword":"散体"},{"id":"95defcee-bd57-4270-98a1-dd9a6975689a","keyword":"流动规律","originalKeyword":"流动规律"},{"id":"e72f6c50-4a81-4e1c-84ea-46d1a50b4925","keyword":"模拟试验","originalKeyword":"模拟试验"},{"id":"e1315ed3-3f85-4248-924d-97cd009f0a54","keyword":"崩落采矿法","originalKeyword":"崩落采矿法"},{"id":"f02d1fb4-fcc4-4e4c-866c-e85ec8369327","keyword":"夏甸金矿","originalKeyword":"夏甸金矿"}],"language":"zh","publisherId":"huangj200908007","title":"夏甸金矿散体流动规律室内模拟试验研究","volume":"30","year":"2009"}],"totalpage":15,"totalrecord":149}