{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"高温熔体的密度是描述其性质的重要物理量之一,可通过直接和间接两种方式测定.静滴法、膨胀计法和比重瓶法属于直接测定,而阿基米德法、气泡最大压力法和γ射线吸收法属于间接测定.本文介绍了各种高温熔体密度测定方法的原理和近期的应用情况,分析了其适用范围和优缺点,并结合目前测试中存在的问题提出了今后的发展方向.","authors":[{"authorName":"朱桥","id":"1dcdfd6f-8af0-470a-95f3-2f55fe6ccb22","originalAuthorName":"朱桥"},{"authorName":"王秀峰","id":"0b040357-a7d4-4098-b5e1-fbdabc727013","originalAuthorName":"王秀峰"}],"doi":"","fpage":"1087","id":"aa0a7c47-4f35-4544-8356-a34937632649","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":"4e75bf0b-cb76-4ba3-9e54-2ff94ea117a8","keyword":"高温熔体","originalKeyword":"高温熔体"},{"id":"4eb87760-e8fd-41f1-a8ef-d43fc0d0537f","keyword":"密度测量","originalKeyword":"密度测量"},{"id":"e8b40741-7b77-44de-a278-e891e409b9ea","keyword":"结构","originalKeyword":"结构"},{"id":"91c03391-dc7a-42af-80d6-92e99f7913ef","keyword":"物性","originalKeyword":"物性"}],"language":"zh","publisherId":"gsytb201306018","title":"高温熔体密度测量研究进展","volume":"32","year":"2013"},{"abstractinfo":"文中阐述了上朱车金矿的矿山概况、矿产资源、开采条件,结合矿山实际开采情况,采用类比法、价格法(经济盈亏平衡)对生产经济技术指标进行对比分析,及时调整了矿山工业指标,达到了经济、合理利用矿产资源的目的.","authors":[{"authorName":"唐俊智","id":"5e9bc3c8-dd53-4cd8-9325-633c95343c86","originalAuthorName":"唐俊智"}],"doi":"10.3969/j.issn.1001-1277.2006.11.006","fpage":"19","id":"8194c2ad-4362-423b-a975-dddc804890d2","issue":"11","journal":{"abbrevTitle":"HJ","coverImgSrc":"journal/img/cover/HJ.jpg","id":"44","issnPpub":"1001-1277","publisherId":"HJ","title":"黄金"},"keywords":[{"id":"c1734631-b747-41c3-bfef-5d76ff8b1771","keyword":"工业指标","originalKeyword":"工业指标"},{"id":"75e42fda-8c3b-43c8-8410-f3f95a49e706","keyword":"选择论证","originalKeyword":"选择论证"},{"id":"08308e7e-96b1-4c09-848f-dcfba760e94b","keyword":"上朱车金矿","originalKeyword":"上朱车金矿"}],"language":"zh","publisherId":"huangj200611006","title":"上朱车金矿工业指标的选择论证","volume":"27","year":"2006"},{"abstractinfo":"朱林西金矿床位于金山金矿田的中北部,是与韧-脆性剪切带有关的石英脉型、蚀变岩型金矿床。在综合研究和利用矿区以往地质地球化学资料基础上,选取矿区40号勘探线为典型地质剖面,对该剖面坑探工程控制的Ⅰ号金矿带进行系统采样和数据分析与统计计算。利用相关分析、聚类分析、因子分析方法,确定了金矿床的原生晕组合特征。通过绘制和分析原生晕元素轴向异常分布图和叠加图、地球化学参数计算图,初步归纳了矿床构造叠加晕总体特征,并分析了矿体原生晕特征的地质意义以及对深部盲矿体预测的应用。研究认为:As与 Au关系密切, As、Sb和Hg为金矿体的前缘指示元素组合;Pb、Zn、Cu分布于矿体周围,为矿体的近矿晕指示元素组合;Mo、Mn和Co元素为矿体的尾晕元素组合;尾晕的反带异常、前缘晕与尾晕叠加等特征对深部盲矿体预测有重要指示作用。","authors":[{"authorName":"丁高明","id":"cbc1409a-9e45-46b6-bb75-db95a0195d0d","originalAuthorName":"丁高明"},{"authorName":"卢树东","id":"a2c04c96-4776-4c99-9a8e-b043f1aae1ed","originalAuthorName":"卢树东"},{"authorName":"刘国荣","id":"15652333-9439-409c-959a-68a073a3abde","originalAuthorName":"刘国荣"},{"authorName":"肖淳","id":"a155b016-6e42-489e-b96a-e3d229caabce","originalAuthorName":"肖淳"}],"doi":"10.11792/hj20160904","fpage":"14","id":"d8f67118-529e-436d-8123-01d216051050","issue":"9","journal":{"abbrevTitle":"HJ","coverImgSrc":"journal/img/cover/HJ.jpg","id":"44","issnPpub":"1001-1277","publisherId":"HJ","title":"黄金"},"keywords":[{"id":"0fcef0d1-3d1f-4d6e-af5d-15512a7085bb","keyword":"原生晕","originalKeyword":"原生晕"},{"id":"77fe5818-8291-4e86-a483-91a6f5b4c95c","keyword":"朱林西金矿床","originalKeyword":"朱林西金矿床"},{"id":"966cb335-b420-440f-b0c4-b36d5399d98b","keyword":"金山金矿田","originalKeyword":"金山金矿田"},{"id":"7e2a1521-13ac-43d6-baa7-4835389f98eb","keyword":"盲矿体预测","originalKeyword":"盲矿体预测"}],"language":"zh","publisherId":"huangj201609004","title":"江西金山金矿田朱林西金矿床矿体原生晕特征","volume":"37","year":"2016"},{"abstractinfo":"为研究复合材料在桥梁工程中的应用,以天津某复合材料人行桥为研究对象,采用ANSYS 11.0建立该桥空间有限元模型,对其进行结构验算与分析.分析结果表明,通过合理的结构设计和材料设计,复合材料桥梁可以满足现行的规范要求.最后探讨了复合材料桥梁设计面临的技术困难——结构设计准则和结点连接技术,并根据当前国内外复合材料的发展和环境恶化的加剧,对复合材料桥梁的应用前景做了展望.","authors":[{"authorName":"袁渐超","id":"0b4e2fef-6bd3-4b3a-8a8b-8240c090c97c","originalAuthorName":"袁渐超"},{"authorName":"任司南","id":"3bcf007b-57b3-490c-bdbc-6cd2911ff010","originalAuthorName":"任司南"},{"authorName":"熊皓","id":"e61fd274-da3e-4df0-8122-608d0cf3eb60","originalAuthorName":"熊皓"},{"authorName":"刘保良","id":"50a764ea-224f-496d-aa7e-d8cbd7766ad3","originalAuthorName":"刘保良"}],"doi":"","fpage":"101","id":"e52be077-b5e3-4e8f-a580-888d1893a4d0","issue":"12","journal":{"abbrevTitle":"BLGFHCL","coverImgSrc":"journal/img/cover/BLGFHCL.jpg","id":"6","issnPpub":"1003-0999","publisherId":"BLGFHCL","title":"玻璃钢/复合材料"},"keywords":[{"id":"4938e4a3-a976-4047-be95-5a23c5bfbd28","keyword":"人行桥","originalKeyword":"人行桥"},{"id":"4b444ff8-8ccc-4fb8-99b1-e02ae919b001","keyword":"复合材料","originalKeyword":"复合材料"},{"id":"02484bd1-e6d5-431a-8504-7a19c0ee6383","keyword":"结构分析","originalKeyword":"结构分析"},{"id":"b6649804-03b3-4283-83e2-e7562a7cbb58","keyword":"设计准则","originalKeyword":"设计准则"},{"id":"23fefa87-2690-4d35-97a4-ad2024d33d98","keyword":"环保","originalKeyword":"环保"}],"language":"zh","publisherId":"blgfhcl201412018","title":"GFRP人行桥设计探索","volume":"","year":"2014"},{"abstractinfo":"介绍了电缆桥架电弧喷涂的工艺流程,包括:桥架焊缝处理-表面喷砂处理-电弧喷锌-涂层封闭-检查-成品.讨论了各工序的特点和要求.","authors":[{"authorName":"聂玉华","id":"192c546c-dc26-4fab-a979-45058e21f299","originalAuthorName":"聂玉华"}],"doi":"","fpage":"54","id":"14d459c7-e84c-4d2a-b723-a0fbcd0e2087","issue":"9","journal":{"abbrevTitle":"DDYTS","coverImgSrc":"journal/img/cover/DDYTS.jpg","id":"21","issnPpub":"1004-227X","publisherId":"DDYTS","title":"电镀与涂饰 "},"keywords":[{"id":"7cf4f8ca-3275-4d1c-a68c-b997691c3e21","keyword":"电缆桥架","originalKeyword":"电缆桥架"},{"id":"6bb9d918-9964-4957-94d2-89a405e6a6b9","keyword":"电弧喷涂","originalKeyword":"电弧喷涂"},{"id":"9f94302c-3e3a-4d33-9de6-769476b9f0aa","keyword":"喷砂","originalKeyword":"喷砂"},{"id":"55b9316d-3ef1-4614-8ada-20ecd7d5dbb1","keyword":"封孔","originalKeyword":"封孔"}],"language":"zh","publisherId":"ddyts200809018","title":"电缆桥架的电弧喷涂工艺","volume":"27","year":"2008"},{"abstractinfo":"LS-DYNA可以满足用户对某些材料本构关系子程序开发的要求.本文首先编制了各向同性线弹性材料本构模型子程序,计算单轴拉伸作用,得到材料子程序开发的可行性;另外主要编制了飞机风挡材料采用的具有应变率效应的非线性粘弹性朱-王-唐本构模型,结果能很好地对朱-王-唐模型进行描述,特别是应变率对该模型的影响.并用于真实风挡的计算,得到的数值结果与试验值比较吻合.","authors":[{"authorName":"冯震宙","id":"080ef325-5d8f-4493-baf2-395f9753a380","originalAuthorName":"冯震宙"},{"authorName":"王新军","id":"dbefb237-85be-4f86-ad6c-49a7fc3c44a0","originalAuthorName":"王新军"},{"authorName":"王富生","id":"1ad4e6d3-6e44-4be2-a4b4-a6a02a67cbae","originalAuthorName":"王富生"},{"authorName":"高行山","id":"c47026b5-8556-45b2-aff0-8ec452dcfe5e","originalAuthorName":"高行山"},{"authorName":"岳珠峰","id":"3ba1b48c-b919-450a-b7f0-ceced749af77","originalAuthorName":"岳珠峰"}],"doi":"10.3969/j.issn.1673-2812.2007.02.027","fpage":"269","id":"fd2e2c8d-9c37-4d2d-88a5-3819edd6ff21","issue":"2","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":"ab9ca95b-98bf-4375-a3e3-afaffca62712","keyword":"非线性粘弹性本构关系","originalKeyword":"非线性粘弹性本构关系"},{"id":"17f17c9c-7394-4776-9321-b9a856ebaace","keyword":"材料子程序","originalKeyword":"材料子程序"},{"id":"5f2336c9-4355-43bf-a0aa-96f88fd1efe0","keyword":"风挡","originalKeyword":"风挡"},{"id":"f159c787-014f-46b7-ace7-1c65e7f345e6","keyword":"应变率","originalKeyword":"应变率"}],"language":"zh","publisherId":"clkxygc200702027","title":"朱-王-唐非线性粘弹性本构模型在有限元分析中的实现及其应用","volume":"25","year":"2007"},{"abstractinfo":"介绍了热效率高、烘炉内温度场均匀性好和稳定性高的高效桥式热风循环烘炉的优点及其设计.","authors":[{"authorName":"袁永壮","id":"3e42dfe3-9d2e-428a-a91b-0060e64a4348","originalAuthorName":"袁永壮"}],"doi":"10.3969/j.issn.0253-4312.2003.01.010","fpage":"26","id":"05198d9e-0883-4fc9-86f3-60c92d2e25ae","issue":"1","journal":{"abbrevTitle":"TLGY","coverImgSrc":"journal/img/cover/TLGY.jpg","id":"61","issnPpub":"0253-4312","publisherId":"TLGY","title":"涂料工业 "},"keywords":[{"id":"b0a02f2f-6f53-43d3-a976-452d7f2c41d5","keyword":"高效桥式热风循环烘炉","originalKeyword":"高效桥式热风循环烘炉"},{"id":"343383e3-55a2-4f1f-856a-7f8c8ed8af25","keyword":"优点","originalKeyword":"优点"},{"id":"44f1f12e-f3b7-4b48-866a-ff637a44162e","keyword":"设计","originalKeyword":"设计"}],"language":"zh","publisherId":"tlgy200301010","title":"高效桥式热风循环烘炉","volume":"33","year":"2003"},{"abstractinfo":"采用自主设计的电接触-高速摄像试验系统,在直流单分断模式下对纯银触头在电接触过程中所发生的熔桥行为进行观测,从而在不同的电流条件下对电接触过程中熔桥的形貌尺寸进行研究,同时通过SEM对电接触熔桥行为作用后纯银触头的表面进行形貌分析。结果表明,在DC 10 V (8~20 A)条件下,纯银触头在电接触过程中形成的熔桥有圆柱型和哑铃型2种形貌,并且其尺寸为微米级;熔桥的直径和长度都随电流的增大而呈现出先减小后增大的趋势,10~15 A范围内纯银触头在电接触过程中不易形成熔桥,电接触过程中电弧可能先于熔桥而产生,并且熔桥和电弧现象可以同时存在。","authors":[{"authorName":"陈静洪","id":"b56731e3-ef9f-49cd-90c6-a3bcc192e0a5","originalAuthorName":"陈静洪"},{"authorName":"陈松","id":"c906a778-65bf-4303-9804-f4d32084902e","originalAuthorName":"陈松"},{"authorName":"谢明","id":"002fcfa4-3f61-45fe-921a-c6fbcf150a64","originalAuthorName":"谢明"},{"authorName":"王塞北","id":"e2e5c749-461f-4ac5-b21c-1de7bdc81ac6","originalAuthorName":"王塞北"},{"authorName":"胡洁琼","id":"50c8ddbe-2c2d-4d12-b3bb-45e23aae5710","originalAuthorName":"胡洁琼"},{"authorName":"王松","id":"704628b3-eb9a-4047-9532-40eae33e7e85","originalAuthorName":"王松"},{"authorName":"张吉明","id":"bd1477f9-61d7-40ed-b02a-6e5cf4389128","originalAuthorName":"张吉明"},{"authorName":"陈永泰","id":"fa96cca7-b1e0-4a45-8a72-95b9f9e6b3df","originalAuthorName":"陈永泰"}],"doi":"","fpage":"44","id":"64ca9623-0a41-407d-8d86-4210c2eb691a","issue":"z1","journal":{"abbrevTitle":"GJS","coverImgSrc":"journal/img/cover/GJS.jpg","id":"38","issnPpub":"1004-0676","publisherId":"GJS","title":"贵金属"},"keywords":[{"id":"5ff1b7f8-42c6-4c85-9eaf-0121a5fb74c4","keyword":"纯银触头","originalKeyword":"纯银触头"},{"id":"d2896768-6f5d-4d90-8621-813fda3de0bd","keyword":"电接触","originalKeyword":"电接触"},{"id":"11ada9f9-f1fa-4186-bbb4-84b48c7c531c","keyword":"熔桥","originalKeyword":"熔桥"},{"id":"d1aee134-6c1e-4d7b-8022-2e9a3e551c11","keyword":"高速摄像","originalKeyword":"高速摄像"}],"language":"zh","publisherId":"gjs2016z1010","title":"纯银触头熔桥行为高速摄像研究","volume":"37","year":"2016"},{"abstractinfo":"本文搭建了高温条件下材料固体桥力的测量系统,该系统最高温度可达1600℃,可测量材料在不同温度、压力及接触时间下的固体桥力.本文中采用玻璃为固体材料,对其熔点附近温度范围内的固体桥力进行了测量.实验结果显示,材料抗拉强度及脖颈抗拉强度均随着温度的升高而减小;通过与常温石蜡材料所获得的固体桥力计算公式进行对比,二者在数量级上相符合,绝对值偏差不超过38%,且明显优于传统的固体桥力估算方法.","authors":[{"authorName":"栾超","id":"9bd0a1d4-9c71-420c-869e-8023eb874ca8","originalAuthorName":"栾超"},{"authorName":"由长福","id":"eb3813c8-dbf8-4223-9ab3-2ba12d424139","originalAuthorName":"由长福"}],"doi":"","fpage":"683","id":"3e13d639-3881-4354-9e4a-654d046430a7","issue":"3","journal":{"abbrevTitle":"GCRWLXB","coverImgSrc":"journal/img/cover/GCRWLXB.jpg","id":"32","issnPpub":"0253-231X","publisherId":"GCRWLXB","title":"工程热物理学报 "},"keywords":[{"id":"903c7982-80e6-4b21-997b-46cbc5110ac8","keyword":"高温","originalKeyword":"高温"},{"id":"68cc6862-be4a-47a7-861b-cf24e5c96ce9","keyword":"固体桥力","originalKeyword":"固体桥力"},{"id":"f7309d5a-5d65-46bf-b797-dd3a12edf09e","keyword":"烧结脖颈抗拉强度","originalKeyword":"烧结脖颈抗拉强度"},{"id":"1a273ca4-df49-4bcd-89f4-4a850c9bf3c2","keyword":"测量","originalKeyword":"测量"},{"id":"701c9a1d-a5e1-450e-8b81-5d1fef6fe31f","keyword":"计算公式","originalKeyword":"计算公式"}],"language":"zh","publisherId":"gcrwlxb201503049","title":"高温条件下材料固体桥力的测量","volume":"36","year":"2015"},{"abstractinfo":"针对飞机隔热结构中金属筋条的热桥问题,设计了两类典型飞机隔热结构构型.为了研究分析热桥效应对隔热性能的影响,对各构型进行瞬态热传导有限元分析,得到在热面温度分别为100 ℃,200 ℃,300 ℃,424 ℃时考核点的温度,并通过隔热性能实验验证了有限元方法的有效性.结果表明:热桥对隔热结构的隔热性能有较大影响,设计隔热结构时应充分考虑热桥现象;提出了热桥阻断的方法.","authors":[{"authorName":"夏甜","id":"139eca33-ceda-4563-be53-4333c6a7daa7","originalAuthorName":"夏甜"},{"authorName":"许平","id":"b3c99d19-dc23-4830-9d42-10bab8152d5a","originalAuthorName":"许平"},{"authorName":"尚磊","id":"2a3c88b7-eb01-40c3-bff6-35f00e0f8389","originalAuthorName":"尚磊"},{"authorName":"王奡","id":"5c96fb04-8eaf-470d-a41c-05d762de1f76","originalAuthorName":"王奡"}],"doi":"10.11868/j.issn.1005-5053.2016.000147","fpage":"91","id":"2cad6e7c-1050-4913-bc80-04c388712f9c","issue":"3","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":"5d893436-2196-47aa-a4bb-23ed8fccd656","keyword":"隔热结构","originalKeyword":"隔热结构"},{"id":"a0f386ca-0947-404e-acdb-1f6b7f155f38","keyword":"瞬态热传导","originalKeyword":"瞬态热传导"},{"id":"70c227a0-6f65-418e-bb5c-b6a73c345c0d","keyword":"隔热性能","originalKeyword":"隔热性能"},{"id":"8247ef04-52c9-40db-9910-82d18fe63ecf","keyword":"热桥阻断","originalKeyword":"热桥阻断"}],"language":"zh","publisherId":"hkclxb201703015","title":"飞机隔热结构热桥效应分析与实验","volume":"37","year":"2017"}],"totalpage":73,"totalrecord":721}