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min空冷),该工艺处理后获得的碳化物颗粒细小,分布均匀,硬度适当,且大大缩短了处理周期.二次硬化后的碳化物更加弥散细小且耐磨性更好,碳化物类型主要为(Fe,Cr)C型.","authors":[{"authorName":"","id":"2aaf00fc-2671-4d61-9f51-7b625e51f7bf","originalAuthorName":"孙梦龙"},{"authorName":"谢春生","id":"003de37c-7c99-4f2a-a545-5a99af2c8535","originalAuthorName":"谢春生"}],"doi":"","fpage":"139","id":"0eefbaa1-7271-4852-bb42-74524c613b7b","issue":"5","journal":{"abbrevTitle":"CLRCLXB","coverImgSrc":"journal/img/cover/CLRCLXB.jpg","id":"15","issnPpub":"1009-6264","publisherId":"CLRCLXB","title":"材料热处理学报"},"keywords":[{"id":"e6fb0d4b-5a0d-4a02-a859-ae5041abaea6","keyword":"Cr12","originalKeyword":"Cr12"},{"id":"9934df84-8ab0-4434-a049-5454a7675c64","keyword":"碳化物","originalKeyword":"碳化物"},{"id":"d990b171-bd79-423e-a33c-39ba7aafa583","keyword":"一次硬化","originalKeyword":"一次硬化"},{"id":"e6c79211-18d0-49d5-bbaf-4a00e5ca5c25","keyword":"二次硬化","originalKeyword":"二次硬化"},{"id":"d7a5851d-1860-4773-8d24-57c485efd76b","keyword":"耐磨性","originalKeyword":"耐磨性"}],"language":"zh","publisherId":"jsrclxb201505026","title":"Cr12模具钢热处理工艺及耐磨性能","volume":"36","year":"2015"},{"abstractinfo":"采用热还原法和原子层沉积技术制备了ZnO-TiO2核壳纳米线,研究沉积厚度、沉积温度及退火对于ZnO-TiO2核壳纳米线晶化和结构的影响.利用X射线衍射(XRD)、扫描电子显微镜(SEM)、高分辨率透射电镜(HRTEM)等手段对退火前后核壳纳米线进行表征.结果表明:沉积厚度和温度的增加有利于TiO2壳层发生非晶向晶化的转变;500℃退火提高了TiO2的结晶性,但可能会使细核壳纳米线(ZnO纳米线直径<80 nm)产生波浪形变形,使150℃沉积的非晶TiO2壳层形成凸出晶粒,并导致其界面处ZnO缺失.","authors":[{"authorName":"","id":"f69a05ce-b671-4908-b7cf-6f087e6597f9","originalAuthorName":"孙梦龙"},{"authorName":"王红波","id":"26e4fb80-9190-4854-8d6d-72e71722f700","originalAuthorName":"王红波"},{"authorName":"聂祥","id":"f0079022-48a6-481a-9367-b7c87386b97e","originalAuthorName":"聂祥龙"},{"authorName":"马大衍","id":"a35b8934-b0d7-4017-8e6c-7ac9741e45ea","originalAuthorName":"马大衍"},{"authorName":"马飞","id":"b8b1f99e-197a-41d6-8b83-e2d89c43d397","originalAuthorName":"马飞"},{"authorName":"徐可为","id":"8890438b-7158-4bd1-934b-dec0cfa6b13c","originalAuthorName":"徐可为"}],"doi":"","fpage":"3073","id":"e3b4121c-1d06-4521-8613-8ec2e81fec48","issue":"12","journal":{"abbrevTitle":"XYJSCLYGC","coverImgSrc":"journal/img/cover/XYJSCLYGC.jpg","id":"69","issnPpub":"1002-185X","publisherId":"XYJSCLYGC","title":"稀有金属材料与工程"},"keywords":[{"id":"24ea2094-4b51-4e28-b263-440e41f81bff","keyword":"ZnO","originalKeyword":"ZnO"},{"id":"ea0931c0-ae70-408b-afe8-eeb9b30b95f5","keyword":"TiO2","originalKeyword":"TiO2"},{"id":"68c1b1fc-1945-4ad6-9dd7-a344887bf751","keyword":"核壳纳米线","originalKeyword":"核壳纳米线"},{"id":"bacda160-706a-4a67-8492-75969f1bc8c4","keyword":"退火","originalKeyword":"退火"},{"id":"ea155b3a-e48d-4152-8c10-fbab802a4794","keyword":"晶化","originalKeyword":"晶化"}],"language":"zh","publisherId":"xyjsclygc201512029","title":"ZnO-TiO2核壳纳米线结构及其热稳定性研究","volume":"44","year":"2015"},{"abstractinfo":"借助UMT-2型摩擦磨损试验机详细研究了干滑动速度对SiCp/A356复合材料摩擦磨损特性的影响,并用SEM、EDS和奥林巴斯激光共焦扫描显微镜观察并分析了其摩擦磨损行为.结果表明:随着干滑动速度的增加,铸态材料的磨损率增加幅度和摩擦系数曲线波动较大;T6态材料的磨损率增加幅度和摩擦系数曲线波动较小,表现出优异的耐摩擦性能.铸态材料的磨损机理主要由低速时的氧化磨损和剥离磨损转变为高速时的粘着磨损,而T6态材料主要由低速时的氧化磨损转变为高速时的剥离磨损和磨粒磨损.高速区时,铸态材料的磨损断面中出现裂纹,而T6态材料只是存在简单的磨削痕迹和颗粒脱落现象.热处理后复合材料的高温耐磨性能明显提高.","authors":[{"authorName":"","id":"b58f14b0-6070-4990-898c-c580a11a6408","originalAuthorName":"孙梦龙"},{"authorName":"王小丫","id":"2419bf28-f1b9-4256-beee-22d10c607873","originalAuthorName":"王小丫"},{"authorName":"谢春生","id":"fcc8f027-32a3-4f17-a621-218187998702","originalAuthorName":"谢春生"}],"doi":"","fpage":"2051","id":"fbaa1f6d-d323-4460-9f9a-5fa17aefeb39","issue":"8","journal":{"abbrevTitle":"XYJS","coverImgSrc":"journal/img/cover/XYJS.jpg","id":"67","issnPpub":"0258-7076","publisherId":"XYJS","title":"稀有金属"},"keywords":[{"id":"b492b294-9a30-4014-906c-584ed4a9d906","keyword":"SiCp/A356","originalKeyword":"SiCp/A356"},{"id":"d98be78b-0c98-416f-a0be-fb9d469e963e","keyword":"干滑动速度","originalKeyword":"干滑动速度"},{"id":"b504bb62-3911-4330-9d89-1bf5c6cb5202","keyword":"高温","originalKeyword":"高温"},{"id":"0d98724c-ec31-4008-9d16-6d5322273c04","keyword":"摩擦磨损特性","originalKeyword":"摩擦磨损特性"}],"language":"zh","publisherId":"xyjsclygc201608025","title":"干滑动速度对SiCp/A356复合材料摩擦磨损特性的影响","volume":"45","year":"2016"},{"abstractinfo":"江苏得电镀化学品有限公司是一家从事电化学、新能源化学、生物化学以及相关特殊化学品研发、生产、销售的高新技术企业,因业务发展需要,公开诚聘以下人员:","authors":[],"doi":"","fpage":"65","id":"45ff7676-a842-4407-a736-9598f3e444a3","issue":"8","journal":{"abbrevTitle":"CLBH","coverImgSrc":"journal/img/cover/CLBH.jpg","id":"7","issnPpub":"1001-1560","publisherId":"CLBH","title":"材料保护"},"keywords":[{"id":"5754056d-0168-4343-a781-70db187ef062","keyword":"江苏","originalKeyword":"江苏"},{"id":"a6c32c9f-446d-4c74-bad7-a77a55f5cdd7","keyword":"高新技术企业","originalKeyword":"高新技术企业"},{"id":"f5cd8683-e5b6-4431-bc22-52766914bc14","keyword":"能源化学","originalKeyword":"能源化学"},{"id":"aa07c371-13b2-482b-99cd-71c56cbe74e5","keyword":"生物化学","originalKeyword":"生物化学"},{"id":"ef6415e7-b220-4968-b019-e44f273c29c2","keyword":"业务发展","originalKeyword":"业务发展"},{"id":"9a95f02d-0636-471b-a535-3b034f501796","keyword":"化学品","originalKeyword":"化学品"},{"id":"a03d4903-770e-4ba4-9126-39d82f04546a","keyword":"电化学","originalKeyword":"电化学"}],"language":"zh","publisherId":"clbh201208023","title":"江苏得高薪诚聘","volume":"45","year":"2012"},{"abstractinfo":"马虎沟测区位于灵北断裂带下盘,区内主干断裂为前家—洼家断裂,发育似斑状郭家岭型花岗闪长岩和玲珑型片麻状黑云母花岗岩. 本次地表构造地球化学测量范围约15 km2 ,采集构造地球化学样品共858件,测试元素包括Au、Ni、Pb、Co、Mo、Sn、Zn、Ti、Cr、As、Sb、Hg、Ag、Cu、Ba、Bi、B、Mn、V等19种. Au元素异常沿前家—洼家断裂带及次级断裂分布特征明显. 分形分维统计表明,Au具有多阶段成矿的特征. 结合多元统计分析,厘定本测区构造地球化学异常找矿标志为Au-Pb-Bi元素组合异常及因子得分Y(i,2)和Y(i,3)异常. 结合地质分析,圈定找矿靶区5处.","authors":[{"authorName":"祝涛","id":"d87cfdbb-d220-4cb9-8426-f320167f9456","originalAuthorName":"祝涛"},{"authorName":"杨斌","id":"1d417931-fdd7-42e2-9013-b63c775244b0","originalAuthorName":"杨斌"}],"doi":"10.11792/hj20160103","fpage":"9","id":"a5cda7a4-a416-4d7a-a1fe-6ba6019f42a3","issue":"1","journal":{"abbrevTitle":"HJ","coverImgSrc":"journal/img/cover/HJ.jpg","id":"44","issnPpub":"1001-1277","publisherId":"HJ","title":"黄金"},"keywords":[{"id":"d52aaa44-4bef-429b-abb6-5fb51c9e7876","keyword":"找矿预测","originalKeyword":"找矿预测"},{"id":"ba34116e-33b4-4e40-b1a4-18c7f3563a5e","keyword":"构造地球化学","originalKeyword":"构造地球化学"},{"id":"bc66191e-c1c4-431b-beee-3c43a947083a","keyword":"多元统计分析","originalKeyword":"多元统计分析"},{"id":"bd626c5c-05ff-4c78-a90c-4eb7ed36e1c4","keyword":"前家—洼家断裂带","originalKeyword":"前孙家—洼孙家断裂带"}],"language":"zh","publisherId":"huangj201601003","title":"胶西北前家—洼家断裂带构造地球化学找矿预测","volume":"37","year":"2016"},{"abstractinfo":"脖河铜矿达矿段Ⅲ1-4号矿群共有5个矿体。通过研究达矿段的地质特征,基本查明了Ⅲ1-4号矿群5个矿体的形态、产状、空间位置及厚度、品位的变化情况;基于地质块段法在探矿区范围内对Ⅲ1-4号矿群进行了资源/储量的估算,获得了5个铜矿体332+333总金属量18559.57 t,为脖河铜矿今后的进一步资源开发规划提供了依据。","authors":[{"authorName":"江训普","id":"19d78a9a-d7ed-4d75-ae30-22c3124cbcd9","originalAuthorName":"江训普"},{"authorName":"黄德镛","id":"9586c9ec-f096-46ac-9105-4051be6f0762","originalAuthorName":"黄德镛"},{"authorName":"陈雷","id":"403534a5-72d1-4c30-acf1-9990026bcff6","originalAuthorName":"陈雷"},{"authorName":"钟彩彩","id":"e0a2748a-df4a-48e8-b084-96921aede099","originalAuthorName":"钟彩彩"}],"doi":"10.11792/hj20160306","fpage":"28","id":"335a09ff-2baa-4931-af6f-eda180ade851","issue":"3","journal":{"abbrevTitle":"HJ","coverImgSrc":"journal/img/cover/HJ.jpg","id":"44","issnPpub":"1001-1277","publisherId":"HJ","title":"黄金"},"keywords":[{"id":"3b5e26a4-08b1-4b6f-8ade-417f1e760e8f","keyword":"地质特征","originalKeyword":"地质特征"},{"id":"c72f5f24-e79b-4d2e-8712-eddc5f7e71b8","keyword":"Ⅲ1-4号矿群","originalKeyword":"Ⅲ1-4号矿群"},{"id":"55b17b4f-698e-4498-9162-269897357830","keyword":"资源/储量","originalKeyword":"资源/储量"},{"id":"87c3d4a9-db92-493a-acab-8b9d92e5c776","keyword":"估算","originalKeyword":"估算"},{"id":"137407be-8948-4058-a57d-7be4024eaece","keyword":"脖河铜矿达矿段","originalKeyword":"龙脖河铜矿龙达矿段"}],"language":"zh","publisherId":"huangj201603006","title":"脖河铜矿达矿段地质特征及资源/储量估算","volume":"37","year":"2016"},{"abstractinfo":"介绍了塘金矿多层堆浸的大规模、永久性堆浸场、采用一堆多区、交叉喷淋、逆流浸出、二次吸附和无氰解吸工艺的特点,及生产中取得的技术经济指标.","authors":[{"authorName":"巫汉泉","id":"dde9e2f7-5ecb-461d-8389-17fe5bfc9fb1","originalAuthorName":"巫汉泉"},{"authorName":"林源","id":"8e9a3f1a-211a-4fda-8dc9-6400b5e92531","originalAuthorName":"林源"}],"doi":"10.3969/j.issn.1001-1277.2002.10.010","fpage":"34","id":"1e3013c0-81e2-44c8-a834-23c297f6cf73","issue":"10","journal":{"abbrevTitle":"HJ","coverImgSrc":"journal/img/cover/HJ.jpg","id":"44","issnPpub":"1001-1277","publisherId":"HJ","title":"黄金"},"keywords":[{"id":"f01e8896-b973-487a-a564-ca1204fcb752","keyword":"堆浸","originalKeyword":"堆浸"},{"id":"7beb3211-c29b-4d24-ab0f-31058aa9b802","keyword":"喷淋","originalKeyword":"喷淋"},{"id":"3a7a5db4-08f6-48be-a846-14ea9b831665","keyword":"工艺特点","originalKeyword":"工艺特点"},{"id":"c346c25f-9fa0-4352-adcb-6b43d1ee9754","keyword":"指标","originalKeyword":"指标"}],"language":"zh","publisherId":"huangj200210010","title":"塘金矿堆浸工艺特点","volume":"23","year":"2002"},{"abstractinfo":"鸡公岩矿段位于高金矿区东部,为高金矿区的重要矿段.详细阐述了高金矿区鸡公岩矿段地质特征,并对矿床成因进行了分析,为进一步勘查开发高金矿区各矿段提供了依据.","authors":[{"authorName":"肖振","id":"e3b4a333-966b-4151-bbc5-1c3898302d64","originalAuthorName":"肖振"},{"authorName":"王广南","id":"84073893-b6b9-41a2-b3f6-1a24bac7f435","originalAuthorName":"王广南"}],"doi":"10.3969/j.issn.1001-1277.2011.11.005","fpage":"24","id":"82a39593-7e1f-4699-b5f9-6f3375666987","issue":"11","journal":{"abbrevTitle":"HJ","coverImgSrc":"journal/img/cover/HJ.jpg","id":"44","issnPpub":"1001-1277","publisherId":"HJ","title":"黄金"},"keywords":[{"id":"db2b844f-640a-47f0-a321-0cbfa14eee8a","keyword":"地质特征","originalKeyword":"地质特征"},{"id":"e56de525-a0df-48fb-b363-8ce206589e1f","keyword":"矿床成因","originalKeyword":"矿床成因"},{"id":"b1e1ad41-9ea6-4cbb-b09f-468034e8b923","keyword":"高金矿区","originalKeyword":"高龙金矿区"}],"language":"zh","publisherId":"huangj201111005","title":"广西高金矿区鸡公岩矿段地质特征及矿床成因","volume":"32","year":"2011"},{"abstractinfo":"介绍了建钢铁烧结烟气脱硫工艺抉择过程中重点关注的原料特点、烟气参数、选择的原则、选择的依据等因素,较详细地介绍了建钢铁石灰-石膏法湿式脱硫工艺流程,并从工程建设角度,对选择该工艺后可能出现的腐蚀和磨损问题进行了应对策略分析.","authors":[{"authorName":"芮义斌","id":"7e6f7537-1190-450f-b712-0daea3f79f78","originalAuthorName":"芮义斌"},{"authorName":"赵宏","id":"ed80e639-fd34-4da6-b597-d3cbc01d986b","originalAuthorName":"赵宏"}],"doi":"10.3969/j.issn.1000-6826.2010.01.017","fpage":"39","id":"bac2fe71-756b-485c-b983-118325c8c6fe","issue":"1","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":"6d9408a7-41ff-4af6-8933-87226c1411b8","keyword":"烧结机","originalKeyword":"烧结机"},{"id":"749c272e-fa1f-4079-af32-e7887bc283fd","keyword":"烟气","originalKeyword":"烟气"},{"id":"ee3945cb-20c9-4847-8872-a779deca0d2a","keyword":"脱硫","originalKeyword":"脱硫"},{"id":"093e7a7c-4e78-4041-9552-d7162b694458","keyword":"磨损","originalKeyword":"磨损"},{"id":"01e87954-8644-42dd-a1d6-13a34b686ed0","keyword":"腐蚀","originalKeyword":"腐蚀"}],"language":"zh","publisherId":"jssj201001017","title":"建钢铁烧结烟气脱硫工艺抉择实践","volume":"","year":"2010"},{"abstractinfo":"赛材料作为一种新型水润滑轴承材料,在海洋工程中有广阔的应用前景,但目前有关海水介质对赛材料吸湿性及摩擦学性能的影响研究还不够深入.研究了赛材料在海水环境中的吸湿行为和摩擦磨损性能,分析了摩擦工况参数如润滑介质、载荷、转速等对赛材料润滑性能的影响规律.结果表明,在各测试条件下,海水均比纯水对赛材料有更好的润滑效果,其原因之一为赛在海水介质中浸泡后,基体-填料间的结合力更强.","authors":[{"authorName":"杨薇","id":"1afdcd27-ec68-4cbf-8103-4357b305f9f1","originalAuthorName":"杨薇"},{"authorName":"蒲晓妮","id":"aebae157-83d8-48f2-ae7f-64c3f5965305","originalAuthorName":"蒲晓妮"},{"authorName":"文光平","id":"a0e86df1-3492-4fd2-96f1-bd3fb3b7284a","originalAuthorName":"文光平"},{"authorName":"刘昊","id":"1eec66bd-8e36-4b26-8420-9b0358dc2be8","originalAuthorName":"刘昊"},{"authorName":"王建章","id":"de2e6eb8-a3af-4446-8acc-746c2e9733f7","originalAuthorName":"王建章"},{"authorName":"阎逢元","id":"5bb6bd47-5e9b-48fd-a79b-49321468fd55","originalAuthorName":"阎逢元"}],"doi":"","fpage":"5","id":"1e246daa-bd24-4603-b2ea-6a4946370804","issue":"7","journal":{"abbrevTitle":"CLBH","coverImgSrc":"journal/img/cover/CLBH.jpg","id":"7","issnPpub":"1001-1560","publisherId":"CLBH","title":"材料保护"},"keywords":[{"id":"ed55869b-876b-4c8e-b35b-06480c1d88ca","keyword":"海水润滑","originalKeyword":"海水润滑"},{"id":"17ac5bd3-4a53-4af1-b2bf-268af1d22091","keyword":"吸水行为","originalKeyword":"吸水行为"},{"id":"9f44e1b9-0e0d-4d8a-a31e-5b33ad6bf442","keyword":"赛材料","originalKeyword":"赛龙材料"},{"id":"9c117c85-b7b5-4ba5-b95c-591f90a60d7d","keyword":"摩擦磨损性能","originalKeyword":"摩擦磨损性能"}],"language":"zh","publisherId":"clbh201607002","title":"赛材料在海水环境中的吸湿和摩擦学行为","volume":"49","year":"2016"}],"totalpage":17,"totalrecord":169}