{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"采用LEITZ偏光岩相显微镜结合扫描电子显微镜,研究了实验室自制渣和工业结晶器保护渣的结晶矿相.结果表明:在本实验中,渣样的结晶矿相主要有枪晶石、黄长石和硅灰石,个别渣样中可能有霞石析出;保护渣中加入少量的MgO可以降低结晶率,抑制硅灰石的生成;加入少量的MnO、ZrO2可促进硅灰石的析出,抑制枪晶石的生长.","authors":[{"authorName":"舒俊","id":"669d64db-c21c-4411-a99c-4dbb24d13ede","originalAuthorName":"舒俊"},{"authorName":"金山同","id":"61869d5a-c267-4156-9699-7b868ded0d89","originalAuthorName":"金山同"},{"authorName":"张丽","id":"7a65b640-f6db-45a3-824a-ce9710032208","originalAuthorName":"张丽"},{"authorName":"曹卫文","id":"4fef17f7-0a47-4f00-844a-00189ad7a649","originalAuthorName":"曹卫文"},{"authorName":"<span style=\"color:red\">宋</span><span style=\"color:red\">任</span><span style=\"color:red\">波</span>","id":"2dd65b06-c21a-4b18-9b38-47f2435ca387","originalAuthorName":"宋任波"},{"authorName":"王向光","id":"5616dbb7-1ef5-4548-8124-f44ebb3a39c5","originalAuthorName":"王向光"}],"doi":"","fpage":"21","id":"a9bf97b8-6435-4a3f-a6c2-6a8bf91920f4","issue":"9","journal":{"abbrevTitle":"GT","coverImgSrc":"journal/img/cover/GT.jpg","id":"27","issnPpub":"0449-749X","publisherId":"GT","title":"钢铁"},"keywords":[{"id":"665534da-8a72-4ac6-84a7-986235c521b0","keyword":"连铸","originalKeyword":"连铸"},{"id":"7c1b009f-3914-414c-b644-ad11afd04611","keyword":"结晶器保护渣","originalKeyword":"结晶器保护渣"},{"id":"c0b82d65-5078-4506-b873-ba8d43f735da","keyword":"结晶矿相","originalKeyword":"结晶矿相"},{"id":"26b31172-024d-4436-9810-07edaf662adf","keyword":"结晶率","originalKeyword":"结晶率"}],"language":"zh","publisherId":"gt200109007","title":"连铸保护渣结晶矿相的研究","volume":"36","year":"2001"},{"abstractinfo":"<span style=\"color:red\">宋</span>钧官瓷作为中国钧瓷领域中的最高水平,它不仅仅是唐钧瓷釉和早期<span style=\"color:red\">宋</span>钧瓷釉的扩展和延续,更是一个时代的创造.在给世人留下宝贵财富的同时,也留下一些需待解决的问题.诸如,菟丝纹、蚯蚓走泥纹的产生原因,乳光、分相、窑变的形成机理等等,是本文探讨的主要问题.本文在研究唐钧花釉、宋代天青、天蓝釉的基础上,采用了当地及周边地域原料,并分别采用了现代及传统的制作工艺以及柴烧、煤烧和气烧的烧成方法最终成功烧制出完美的<span style=\"color:red\">宋</span>钧官瓷艺术效果.实验结果表明,利用当地及周边地域原料和不同的制作工艺,采用不同的烧成方式恢复钧官瓷釉的艺术效果是切实可行的,通过实验证实了钧官瓷釉不同特征的形成原因与工艺过程的相应关系,为钧官瓷的进一步研究提供了可借鉴的科学依据,并从不同角度论述了钧官瓷菟丝纹、蚯蚓走泥纹的形成原理及其乳光、分相、窑变的形成原因及相关问题.","authors":[{"authorName":"张义","id":"909d4353-1cd0-4eee-a44b-3ec77b34500d","originalAuthorName":"张义"},{"authorName":"宁建新","id":"9a0f77bd-2260-4c1b-bde8-80b3290c1f04","originalAuthorName":"宁建新"},{"authorName":"王洪伟","id":"43a25014-afc3-4461-a428-ea03eee7d0d2","originalAuthorName":"王洪伟"},{"authorName":"孙晓岗","id":"0401d67c-3dbd-4010-9516-ba9a9b368e97","originalAuthorName":"孙晓岗"}],"doi":"","fpage":"1580","id":"f8c4c852-1c5a-4313-976c-cafa12ebc6fd","issue":"6","journal":{"abbrevTitle":"GSYTB","coverImgSrc":"journal/img/cover/GSYTB.jpg","id":"36","issnPpub":"1001-1625","publisherId":"GSYTB","title":"硅酸盐通报   "},"keywords":[{"id":"0aa1d7a6-7395-435b-9181-1b28805d06d6","keyword":"钧官瓷","originalKeyword":"钧官瓷"},{"id":"0b13b908-8d98-452b-b15e-ca0566602fe5","keyword":"菟丝纹","originalKeyword":"菟丝纹"},{"id":"4e16e888-70a0-45d2-8f77-0129b5c5c850","keyword":"蚯蚓走泥纹","originalKeyword":"蚯蚓走泥纹"},{"id":"e127e381-fb75-4815-a63c-728d5fc1a78d","keyword":"分相","originalKeyword":"分相"},{"id":"c4d7fc92-502c-4e58-9eaf-04931ed8f0e1","keyword":"乳光","originalKeyword":"乳光"}],"language":"zh","publisherId":"gsytb201206048","title":"中国<span style=\"color:red\">宋</span>钧官瓷釉的实验与研究","volume":"31","year":"2012"},{"abstractinfo":"<span style=\"color:red\">宋</span>家沟金矿床位于胶莱盆地东北缘,牟平—即墨断裂带内,控矿构造为陡倾断裂和裂隙密集带,赋矿围岩为莱阳群的灰白色砾岩,共出露4个矿体. 对区内主成矿阶段石英中的流体包裹体进行了岩相学、显微测温及单个包裹体成分激光拉曼光谱分析. 研究表明,矿石中的包裹体主要有纯CO2包裹体、气液二相包裹体和含CO2三相包裹体3种类型;矿石中的包裹体普遍富含CO2 ,成矿流体为CO2 -NaCl -H2 O 体系,成矿流体具有低盐度(5.0 %~14.42 %)、低密度(0.64 ~0.96 g/cm3 )的特点. 主成矿温度集中在220~240 ℃,成矿压力范围为40~62 MPa,对应的成矿深度为5 .01~6 .34 km. 结合前人研究的流体包裹体氢氧同位素分析认为,<span style=\"color:red\">宋</span>家沟金矿床的成矿流体以幔源流体为主,后期有少量的岩浆流体参与. 确定其矿床成因类型为受陡倾断裂和裂隙密集带联合控制的中温热液脉型金矿床.","authors":[{"authorName":"王铎融","id":"57db05a3-f351-4858-a91f-dc5e55d76d91","originalAuthorName":"王铎融"},{"authorName":"王力","id":"6ae5d5ab-dc31-4d55-b277-66c26e917c3e","originalAuthorName":"王力"},{"authorName":"陈扬","id":"b51e2de7-08f0-4113-9bb3-bf03d3fefde3","originalAuthorName":"陈扬"}],"doi":"10.11792/hj20150506","fpage":"21","id":"d6faaeb1-ea85-4d3e-8b4e-f2c5112bb635","issue":"5","journal":{"abbrevTitle":"HJ","coverImgSrc":"journal/img/cover/HJ.jpg","id":"44","issnPpub":"1001-1277","publisherId":"HJ","title":"黄金"},"keywords":[{"id":"9677e386-9d38-41b1-b464-5fb2c9f59529","keyword":"流体包裹体","originalKeyword":"流体包裹体"},{"id":"2714d8e0-3e4e-4c95-9799-2de2bf03eb4c","keyword":"矿床成因","originalKeyword":"矿床成因"},{"id":"d5357e7b-0f4c-4361-9eba-171958c313fa","keyword":"<span style=\"color:red\">宋</span>家沟金矿床","originalKeyword":"宋家沟金矿床"},{"id":"538316f1-7869-438a-b887-682bb8771dd3","keyword":"山东牟平","originalKeyword":"山东牟平"},{"id":"6798c4a0-d1d0-492a-bf71-fb99d7ce85ce","keyword":"胶莱盆地","originalKeyword":"胶莱盆地"}],"language":"zh","publisherId":"huangj201505006","title":"山东牟平<span style=\"color:red\">宋</span>家沟金矿床流体包裹体研究","volume":"36","year":"2015"},{"abstractinfo":"<span style=\"color:red\">宋</span>家沟金矿床位于山东省牟平,为胶莱盆地中发现的颇具工业规模的金矿床.含矿地层为下白垩统莱阳群下段砾岩,矿床由多个矿体组成,矿石为含金砾岩.含矿地层富金(Au=100.2×10-9).围岩矿石稀土总量232.87×10-6～352.2×10-6,LREE/HREE=1.88～12.71,稀土元素分布模式相似、同步.含矿地层是矿源层,燕山晚期(110～125Ma)构造岩浆活动导致该矿床形成定位,该矿床为沉积改造层控矿床.南地口、大崮头是此类矿床的新的找矿地段.","authors":[{"authorName":"张竹如","id":"6cf30b8d-d9ff-4426-9aa7-5675fbac8f07","originalAuthorName":"张竹如"},{"authorName":"唐<span style=\"color:red\">波</span>","id":"6192e8e9-037f-4f13-8945-3e83050e2c13","originalAuthorName":"唐波"},{"authorName":"聂爱国","id":"d12eb366-0068-4670-90ec-aaa6a418d49e","originalAuthorName":"聂爱国"},{"authorName":"李明琴","id":"d94f6b0c-4dc5-48f7-8b29-28597a76ee89","originalAuthorName":"李明琴"}],"doi":"10.3969/j.issn.1001-1277.2001.07.001","fpage":"1","id":"39b0ce24-99cf-46a0-8349-681635319935","issue":"7","journal":{"abbrevTitle":"HJ","coverImgSrc":"journal/img/cover/HJ.jpg","id":"44","issnPpub":"1001-1277","publisherId":"HJ","title":"黄金"},"keywords":[{"id":"a8a75b24-78aa-456b-9ef9-d2733c1418ce","keyword":"<span style=\"color:red\">宋</span>家沟金矿","originalKeyword":"宋家沟金矿"},{"id":"fde93d52-1bdf-479b-b2c9-bf65c404a974","keyword":"胶莱盆地","originalKeyword":"胶莱盆地"},{"id":"f41fbe9e-7dff-40f0-8f62-421df075703e","keyword":"含金砾岩","originalKeyword":"含金砾岩"},{"id":"c2d4dbe7-3f51-446a-aafa-b42febdd9686","keyword":"稀土配分","originalKeyword":"稀土配分"},{"id":"4a07d8e5-7a61-44bb-8985-1f6b2140d9c4","keyword":"改造成矿","originalKeyword":"改造成矿"},{"id":"d6aa28a7-2f0a-4391-ace4-44ae4bfc8c53","keyword":"层控矿床","originalKeyword":"层控矿床"}],"language":"zh","publisherId":"huangj200107001","title":"山东省牟平<span style=\"color:red\">宋</span>家沟金矿床地质特征","volume":"22","year":"2001"},{"abstractinfo":"重点对吸<span style=\"color:red\">波</span>涂料的吸<span style=\"color:red\">波</span>机理以及粘结剂和吸收剂种类进行了论述,并对吸<span style=\"color:red\">波</span>涂料的发展趋势进行了简单描述.","authors":[{"authorName":"王连杰","id":"087d12de-8bd2-421f-ab69-4b1db8efd33b","originalAuthorName":"王连杰"},{"authorName":"高焕方","id":"4651ec1b-201a-492b-9fea-3b9414a87c74","originalAuthorName":"高焕方"}],"doi":"10.3969/j.issn.1001-3660.2004.06.005","fpage":"13","id":"49a38e58-ea30-4b45-8a10-8eb43fac8cbd","issue":"6","journal":{"abbrevTitle":"BMJS","coverImgSrc":"journal/img/cover/BMJS.jpg","id":"3","issnPpub":"1001-3660","publisherId":"BMJS","title":"表面技术   "},"keywords":[{"id":"d759e4ce-0a68-4273-9b5b-f30eb59b0a8a","keyword":"吸收剂","originalKeyword":"吸收剂"},{"id":"33cb5689-13e3-480f-b36c-8559d6104cca","keyword":"吸<span style=\"color:red\">波</span>涂料","originalKeyword":"吸波涂料"},{"id":"e1757bc1-1563-4f02-9867-880c7bca2021","keyword":"隐身涂料","originalKeyword":"隐身涂料"}],"language":"zh","publisherId":"bmjs200406005","title":"吸<span style=\"color:red\">波</span>涂料概述","volume":"33","year":"2004"},{"abstractinfo":"以电磁理论为基础,对两层结构的毫米<span style=\"color:red\">波</span>/厘米<span style=\"color:red\">波</span>兼容吸收涂层的设计方法进行了分析,并根据理论分析的结果进行了系列吸<span style=\"color:red\">波</span>涂层的实验.理论分析和实验结果表明,先分别以电损耗和磁损耗为主,采用单层结构分别对毫米<span style=\"color:red\">波</span>和厘米<span style=\"color:red\">波</span>实现较好的吸收,然后以厘米<span style=\"color:red\">波</span>吸收层作为内层,以毫米<span style=\"color:red\">波</span>吸收层作为外层,并进一步改善内外层之间的阻抗匹配,利用两层结构可以对毫米<span style=\"color:red\">波</span>和厘米<span style=\"color:red\">波</span>实现较好的兼容吸收.","authors":[{"authorName":"于名讯","id":"32f63a4b-0d00-4861-920a-646c2d3db7f1","originalAuthorName":"于名讯"},{"authorName":"丁文皓","id":"8efc93c8-2666-49e1-8110-c3d751d654de","originalAuthorName":"丁文皓"},{"authorName":"李云南","id":"0a8b4566-1a57-49e0-9c72-e96208a56e70","originalAuthorName":"李云南"},{"authorName":"何华辉","id":"069f80fe-d6a4-4e78-b633-d3521cc0da2a","originalAuthorName":"何华辉"}],"doi":"10.3969/j.issn.1001-4381.2007.07.003","fpage":"12","id":"241c7b15-b2c0-4582-8349-f4f5fb560101","issue":"7","journal":{"abbrevTitle":"CLGC","coverImgSrc":"journal/img/cover/CLGC.jpg","id":"9","issnPpub":"1001-4381","publisherId":"CLGC","title":"材料工程"},"keywords":[{"id":"e36b3a53-0ff8-41a5-a5cf-be1ed5201b47","keyword":"兼容吸<span style=\"color:red\">波</span>涂层","originalKeyword":"兼容吸波涂层"},{"id":"e64e0712-25e5-48c3-a55f-7c817aae89e8","keyword":"毫米<span style=\"color:red\">波</span>","originalKeyword":"毫米波"},{"id":"c53b4ee4-bfef-470a-a4d2-6bdecb26e78d","keyword":"厘米<span style=\"color:red\">波</span>","originalKeyword":"厘米波"}],"language":"zh","publisherId":"clgc200707003","title":"毫米<span style=\"color:red\">波</span>/厘米<span style=\"color:red\">波</span>兼容吸<span style=\"color:red\">波</span>涂层的设计与研究","volume":"","year":"2007"},{"abstractinfo":"综述了目前国内外吸<span style=\"color:red\">波</span>材料的研究动态,介绍了传统吸<span style=\"color:red\">波</span>材料以及新型吸<span style=\"color:red\">波</span>材料,如铁氧体吸<span style=\"color:red\">波</span>材料、碳纤维结构吸<span style=\"color:red\">波</span>材料、纳米吸<span style=\"color:red\">波</span>材料、手性吸<span style=\"color:red\">波</span>材料,多晶铁纤维吸<span style=\"color:red\">波</span>材料,导电高聚物吸<span style=\"color:red\">波</span>材料,雷达红外兼容吸<span style=\"color:red\">波</span>材料的研究状况.","authors":[{"authorName":"王海泉","id":"14ceb226-71e1-4e4a-997d-0074f61a35ae","originalAuthorName":"王海泉"},{"authorName":"陈秀琴","id":"c436b760-cb39-41f7-b062-d0d563f725a3","originalAuthorName":"陈秀琴"}],"doi":"","fpage":"170","id":"a7036c20-815e-422c-a704-d7fc448d280c","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":"05ae1e4a-cbd8-4ae8-aa77-e2ba197b715d","keyword":"吸<span style=\"color:red\">波</span>材料","originalKeyword":"吸波材料"},{"id":"2477cd37-a2c9-46c3-94ab-c74ec72d8b9d","keyword":"隐身技术","originalKeyword":"隐身技术"},{"id":"9da683df-73b9-4e7a-ba68-5dd027b6bdf1","keyword":"吸收剂","originalKeyword":"吸收剂"},{"id":"5db80759-9161-41c7-96da-e28b42b00914","keyword":"纳米材料","originalKeyword":"纳米材料"}],"language":"zh","publisherId":"cldb2003z1053","title":"吸<span style=\"color:red\">波</span>材料的研究进展","volume":"17","year":"2003"},{"abstractinfo":"","authors":[{"authorName":"薛发","id":"ada984ab-538b-4700-8763-72162c993391","originalAuthorName":"薛发"}],"doi":"10.3969/j.issn.1000-6826.2004.03.008","fpage":"19","id":"56c3e3b6-a4e0-482c-b694-5dfb31c87708","issue":"3","journal":{"abbrevTitle":"JSSJ","coverImgSrc":"journal/img/cover/3abe017a-2574-4821-8152-4ae974ef0471.jpg","id":"47","issnPpub":"1000-6826","publisherId":"JSSJ","title":"金属世界"},"keywords":[{"id":"b98d045d-2c17-472d-8775-c126d7844a70","keyword":"","originalKeyword":""}],"language":"zh","publisherId":"jssj200403008","title":"全面推进钢结构<span style=\"color:red\">任</span>宅产业化","volume":"","year":"2004"},{"abstractinfo":"研究了由SiC(N)纳米吸收剂制备的SiC(N)/LAS吸<span style=\"color:red\">波</span>材料的介电性能,对影响介电性能的吸收剂的含量、吸<span style=\"color:red\">波</span>材料烧结温度和碳界面层等因素进行了较为全面的研究.结果表明,在1080℃以下烧结温度对陶瓷致密度的影响较大而对陶瓷介电常数的影响较小;在1080℃以上烧结温度对烧结致密度的影响较小,对陶瓷介电常数的影响较大.吸<span style=\"color:red\">波</span>材料介电常数的实测值与计算值之间存在很大的差异.这种差异是吸<span style=\"color:red\">波</span>材料制备过程中纳米级的SiC(N)促进了碳界面层形成,导致了在较高温度烧结时吸<span style=\"color:red\">波</span>材料介电常数对温度的敏感性,使吸<span style=\"color:red\">波</span>材料介电常数的实测值与计算值之间出现了很大的差异.形成的碳界面层复介电常数的虚部较高,使吸<span style=\"color:red\">波</span>材料对电磁<span style=\"color:red\">波</span>的损耗进一步升高,从而使吸<span style=\"color:red\">波</span>材料的吸<span style=\"color:red\">波</span>性能得到增强.","authors":[{"authorName":"罗发","id":"629f5441-d652-4209-abfc-7dbedff275bc","originalAuthorName":"罗发"},{"authorName":"周万城","id":"0960e8be-b6ca-4ac7-b27e-bb9c0e9d1c48","originalAuthorName":"周万城"},{"authorName":"焦桓","id":"8e88aaf8-9690-45b4-b709-620bf43a7199","originalAuthorName":"焦桓"},{"authorName":"赵东林","id":"e71bd028-24a8-44a1-ba55-3d9945ec050f","originalAuthorName":"赵东林"}],"doi":"10.3321/j.issn:1000-324X.2003.03.011","fpage":"580","id":"7f569df8-2264-4f19-b73c-580979ee320d","issue":"3","journal":{"abbrevTitle":"WJCLXB","coverImgSrc":"journal/img/cover/WJCLXB.jpg","id":"62","issnPpub":"1000-324X","publisherId":"WJCLXB","title":"无机材料学报"},"keywords":[{"id":"f79ba986-3961-4fd2-85fa-41bb4a27fced","keyword":"纳米SiC(N)","originalKeyword":"纳米SiC(N)"},{"id":"87268320-08e6-4bcb-bf98-d0d8407b9276","keyword":"LAS玻璃陶瓷","originalKeyword":"LAS玻璃陶瓷"},{"id":"0c1de119-cc9e-4e82-ad35-28c91d51eec9","keyword":"介电常数","originalKeyword":"介电常数"},{"id":"a74efac2-9372-411e-bae4-51ddcf356fa5","keyword":"界面层","originalKeyword":"界面层"},{"id":"8a1a84e8-38d5-4423-8458-5bc12f70fafd","keyword":"吸<span style=\"color:red\">波</span>材料","originalKeyword":"吸波材料"}],"language":"zh","publisherId":"wjclxb200303011","title":"SiC(N)/LAS吸<span style=\"color:red\">波</span>材料吸<span style=\"color:red\">波</span>性能研究","volume":"18","year":"2003"},{"abstractinfo":"综述了目前国内外新型吸<span style=\"color:red\">波</span>材料的研究动态,介绍了吸<span style=\"color:red\">波</span>材料的吸<span style=\"color:red\">波</span>原理和新型吸<span style=\"color:red\">波</span>材料,包括吸<span style=\"color:red\">波</span>涂层材料如铁氧体、纳米吸<span style=\"color:red\">波</span>材料、手性材料、雷达红外兼容吸<span style=\"color:red\">波</span>材料、等离子体吸<span style=\"color:red\">波</span>材料及结构型吸<span style=\"color:red\">波</span>材料的最新研究现状.\n","authors":[{"authorName":"赵九蓬","id":"09d93e26-3855-4904-8327-8389a3ebd4d5","originalAuthorName":"赵九蓬"},{"authorName":"李垚","id":"84f4c11a-434f-4e7f-a678-ab333ebe2eb7","originalAuthorName":"李垚"},{"authorName":"吴佩莲","id":"67337703-9333-48d2-afe2-06a9190791a7","originalAuthorName":"吴佩莲"}],"doi":"10.3969/j.issn.1005-0299.2002.02.027","fpage":"219","id":"61187754-f7be-45d2-a2d3-851fa60a4f34","issue":"2","journal":{"abbrevTitle":"CLKXYGY","coverImgSrc":"journal/img/cover/CLKXYGY.jpg","id":"14","issnPpub":"1005-0299","publisherId":"CLKXYGY","title":"材料科学与工艺"},"keywords":[{"id":"09f4cbb5-e594-49e4-bcb7-bb3039b07224","keyword":"吸<span style=\"color:red\">波</span>材料","originalKeyword":"吸波材料"},{"id":"6b7f445c-988e-437d-b02e-e839a23ee7d8","keyword":"吸<span style=\"color:red\">波</span>涂层","originalKeyword":"吸波涂层"},{"id":"9de51701-a65e-4ec5-9460-4022b656a974","keyword":"结构型","originalKeyword":"结构型"}],"language":"zh","publisherId":"clkxygy200202027","title":"新型吸<span style=\"color:red\">波</span>材料研究动态","volume":"10","year":"2002"}],"totalpage":303,"totalrecord":3025}