{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"采用真空熔铸与形变相结合的方法制备高强高导Cu-Cr-Zr原位复合材料,利用SEM和TEM分析材料在铸态及变形态的显微组织,研究不同变形量和中间热处理对Cu-Cr-Zr原位复合材料的抗拉强度和导电率的影响.结果表明:Cu-Cr-Zr合金经室温冷变形,Cr相由铸态树枝状转变为纤维状;中间热处理能够明显提高材料的导电率;采用500 ℃中间热处理并结合冷变形,能得到具有较好综合性能的Cu-Cr-Zr原位复合材料,其抗拉强度达到1 119 MPa,导电率(vs IACS)达到76%.","authors":[{"authorName":"贾淑果","id":"d378d8cb-09ed-4ecd-ab57-cf7f56cffb7b","originalAuthorName":"贾淑果"},{"authorName":"刘平","id":"e9c52165-5768-404a-ae34-c9f60a83b333","originalAuthorName":"刘平"},{"authorName":"宋克兴","id":"db4e9147-2218-4042-9aa8-0f21c1856ac0","originalAuthorName":"宋克兴"},{"authorName":"<span style=\"color:red\">陈</span><span style=\"color:red\">讲</span><span style=\"color:red\">彪</span>","id":"04721ece-e34a-43ef-870d-bf213db34921","originalAuthorName":"陈讲彪"},{"authorName":"<span style=\"color:red\">陈</span>小红","id":"dc5105b3-7bf6-4235-a1a8-27b43691e810","originalAuthorName":"陈小红"},{"authorName":"田保红","id":"dc56398e-102d-470f-b994-8e163de52564","originalAuthorName":"田保红"},{"authorName":"任凤章","id":"afa35874-1d76-4c0f-8037-de6858a76444","originalAuthorName":"任凤章"}],"doi":"","fpage":"1334","id":"7bc5ad53-e2f5-4570-861d-efca42ab19c6","issue":"7","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":"dbf84546-c016-4c85-9592-1afc30e166c1","keyword":"Cu-Cr-Zr合金","originalKeyword":"Cu-Cr-Zr合金"},{"id":"e21dd0fe-7d6e-415a-9afa-e7f441f2b480","keyword":"原位复合材料","originalKeyword":"原位复合材料"},{"id":"e1ef8faa-4d3c-459d-b6d3-bb676b3bb487","keyword":"高强度","originalKeyword":"高强度"},{"id":"7b11353d-f557-4f87-9ebe-1cab9ab7caaf","keyword":"高导电","originalKeyword":"高导电"},{"id":"63b108c8-3ef0-47a4-9e80-0ee3d8ec5ea8","keyword":"显微组织","originalKeyword":"显微组织"}],"language":"zh","publisherId":"zgysjsxb201007014","title":"Cu-Cr-Zr原位复合材料的组织与性能","volume":"20","year":"2010"},{"abstractinfo":"研究了核电压力容器用钢SA533B显微组织的变化对其力学性能的影响,尤其对韧性的影响。显微分析结果表明,该钢板的组织主要为粒状贝氏体及少量多边形铁素体。通过对调质态（QT）和模拟焊后热处理（SPWHT）态SA533B钢板的常规力学性能、不同温度的夏比冲击韧性（KCV）及断裂韧度（KJC）的深入研究,结果表明SA533B厚钢板经SPWHT升高了韧脆转变温度,降低了冲击韧性及断裂韧度,但SPWHT对常规力学性能无显著的影响。扫描电镜及电子探针分析仪分析表明,经模拟焊后热处理SA533B板材组织中的析出相有不同程度长大且有钼的析出,板材的韧性降低与微观组织中的析出相和钼的析出密切相关。","authors":[{"authorName":"李云良","id":"e4a1ad4e-bf9e-4e1c-bd58-c91608248f9a","originalAuthorName":"李云良"},{"authorName":"张汉谦","id":"eb9c8a12-5391-4ce1-b1e0-cdac58f23384","originalAuthorName":"张汉谦"},{"authorName":"胡莹","id":"74e2d8a7-eca1-4b2e-b9e8-8b61156ed293","originalAuthorName":"胡莹"},{"authorName":"<span style=\"color:red\">陈</span><span style=\"color:red\">讲</span><span style=\"color:red\">彪</span>","id":"5c91d845-bf30-4762-941d-be5e57de9ff5","originalAuthorName":"陈讲彪"},{"authorName":"李金富","id":"d5cb8f30-11ba-416c-81bb-b140509300a0","originalAuthorName":"李金富"}],"doi":"","fpage":"84","id":"51cd678e-a894-4371-b883-66721de906ca","issue":"8","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":"ea4e126e-4a07-4132-acd8-dcf8534d630d","keyword":"核电压力容器","originalKeyword":"核电压力容器"},{"id":"f0059df1-758f-4f08-a169-59140ef8d3b6","keyword":"粒状贝氏体","originalKeyword":"粒状贝氏体"},{"id":"be23af86-b488-44db-a7b2-0943f8b78f56","keyword":"韧性","originalKeyword":"韧性"},{"id":"3f206093-80a6-46e8-aab2-937824dff86c","keyword":"析出相","originalKeyword":"析出相"}],"language":"zh","publisherId":"jsrclxb201208017","title":"核电压力容器用厚钢板SA533B的组织及力学性能","volume":"33","year":"2012"},{"abstractinfo":"对稀土微合金化Cu-0.81Cr-0.12Zr-0.05La-0.05Y合金的形变与热处理工艺进行了研究.结果表明,优化加工工艺为铸锭经1193 K温度均匀化退火60 rmin后热轧,然后于1223 K温度固溶处理60 min后快淬至室温进行应变为60％的冷变形处理,最后再于773 K温度时效60 min.经过这样处理的试样,具有良好的综合性能,其显微硬度和导电率分别达186 HV0.1和81％IACS.试样未经冷变形处理,显微硬度和导电率则分别为140 HV0.1和80％IACS,相比之下,时效前对试样施以20％～80％应变的冷变形,可明显提高合金力学性能达20 HV0.1以上.","authors":[{"authorName":"潘振亚","id":"b7fbae8f-a649-486e-80ca-84b8c6579a0b","originalAuthorName":"潘振亚"},{"authorName":"<span style=\"color:red\">陈</span><span style=\"color:red\">讲</span><span style=\"color:red\">彪</span>","id":"e111e9e5-46c3-4d83-9994-b572fc9affa4","originalAuthorName":"陈讲彪"},{"authorName":"石昆","id":"7f0ae0c2-98bc-4a25-884f-be0ff63c3e5f","originalAuthorName":"石昆"},{"authorName":"李金富","id":"648ee1a8-b15c-4192-9f93-f6cba951bb40","originalAuthorName":"李金富"}],"doi":"","fpage":"26","id":"97d21b2b-7af6-4bb5-9e66-9863f1b0ad01","issue":"12","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":"907c43a4-376d-45be-8e70-7d8de4e03607","keyword":"铜合金","originalKeyword":"铜合金"},{"id":"5fd4515b-aa01-4869-ba62-94734e7cdfaf","keyword":"变形","originalKeyword":"变形"},{"id":"d5195cea-da47-46e3-9813-c6763c8c5dad","keyword":"热处理","originalKeyword":"热处理"},{"id":"9880ba53-c95f-416f-bb70-8b8af23e10d4","keyword":"性能","originalKeyword":"性能"}],"language":"zh","publisherId":"jsrclxb201512005","title":"Cu-0.81Cr-0.12Zr-0.05La-0.05Y合金形变与热处理工艺优化","volume":"36","year":"2015"},{"abstractinfo":"对模拟焊后热处理态12Cr2Mo1R钢在500℃条件下进行了持久试验,研究了试验前后钢的组织和硬度的变化.结果表明,试验前后钢的组织均以贝氏体为主,碳化物同由M3C、M2C、M7C3和M23C6组成,随着持久断裂时间的增加,试样中碳化物数量出现了波动,但均高于试验前,碳化物颗粒的平均尺寸先减小后升高.在持久断裂时间为2272 h时,试样中碳化物含量最高,颗粒平均尺寸最小.断后试样的硬度则先略微降低,后升高,并在持久断裂时间为2272 h时达到最高值,然后再次降低.与夹持段相比,试样的工作段在试验过程中因变形而析出更多的碳化物,试验结束后硬度的下降也较明显,且随持久断裂时间的增加,两段的碳化物含量、尺寸大小和硬度的变化规律基本一致.","authors":[{"authorName":"<span style=\"color:red\">陈</span><span style=\"color:red\">讲</span><span style=\"color:red\">彪</span>","id":"b608387d-c635-44f2-9b12-db5895869548","originalAuthorName":"陈讲彪"},{"authorName":"刘慧斌","id":"1c5d2be7-4350-456a-84c8-717417a567f2","originalAuthorName":"刘慧斌"},{"authorName":"潘振亚","id":"fe71de19-5882-47ec-9c4c-e2dc459c129e","originalAuthorName":"潘振亚"},{"authorName":"石昆","id":"46f207c2-d1d9-4c0a-b1a3-c2d0ab8ffc69","originalAuthorName":"石昆"},{"authorName":"张汉谦","id":"c7f8c6b5-624d-43cd-8ec2-c6f61422253d","originalAuthorName":"张汉谦"},{"authorName":"李金富","id":"552d6679-0463-4823-b61d-4e6427d1761f","originalAuthorName":"李金富"}],"doi":"","fpage":"139","id":"ee864481-89b4-432f-8c32-d381ae3e4dc5","issue":"11","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":"44caaebd-3749-4159-95cb-b4160d4c4bea","keyword":"12Cr2Mo1R钢","originalKeyword":"12Cr2Mo1R钢"},{"id":"3574e0db-f813-48da-952c-4dd06f105dca","keyword":"蠕变断裂","originalKeyword":"蠕变断裂"},{"id":"33f55f80-9d3d-4c45-b952-3326efafaf72","keyword":"碳化物","originalKeyword":"碳化物"},{"id":"b770451d-aa26-45ae-a984-c2d4a2c6f7b7","keyword":"硬度","originalKeyword":"硬度"},{"id":"5baf6099-d78d-4ad4-b7a7-06167a0bd51e","keyword":"形变","originalKeyword":"形变"}],"language":"zh","publisherId":"jsrclxb201411026","title":"12Cr2Mo1R钢持久试验后的组织与性能","volume":"35","year":"2014"},{"abstractinfo":"本文对12Cr2Mo1R耐热钢板进行了正火+回火处理(NT),然后再进行模拟焊后热处理(SPWHT),研究了这两种状态钢板在不同温度下的J-△a阻力曲线,并对断裂韧度J0.2BL值进行了分析.研究结果表明,这两种热处理态组织均以贝氏体为主,所含碳化物都由M3C、M2C、M7C3和M23C6组成,其中M代表合金元素Cr、Mo、Mn和Fe或者它们的组合;在相同热处理的状态下,温度越高,断裂韧度值越高;相同温度情况下,正火+回火态12Cr2Mo1R耐热钢表现出较高的断裂韧度,因为其碳化物含量较小,碳化物之间的间距相对较大.","authors":[{"authorName":"赵素","id":"e7f4aaca-18ee-47d1-81ba-7f3dd9109a34","originalAuthorName":"赵素"},{"authorName":"<span style=\"color:red\">陈</span><span style=\"color:red\">讲</span><span style=\"color:red\">彪</span>","id":"b8c7f509-faff-4dbb-9da4-5bf14c721f58","originalAuthorName":"陈讲彪"}],"doi":"10.14136/j.cnki.issn 1673-2812.2016.05.009","fpage":"726","id":"477d9c0f-3bf7-4be8-ae6c-6fd9b3ba830a","issue":"5","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":"c805b541-0c44-4f9c-a9ab-c91de4417df0","keyword":"12Cr2Mo1R耐热钢","originalKeyword":"12Cr2Mo1R耐热钢"},{"id":"24b129be-ff34-40ac-8558-263a2462e458","keyword":"热处理","originalKeyword":"热处理"},{"id":"5f0462be-89fe-4d64-aae3-cace85a219d6","keyword":"断裂韧度","originalKeyword":"断裂韧度"},{"id":"49d8059f-f16f-457a-870c-bb12ed6e1598","keyword":"微观组织","originalKeyword":"微观组织"},{"id":"6787014f-526a-41e4-ba46-168db4edc016","keyword":"碳化物","originalKeyword":"碳化物"}],"language":"zh","publisherId":"clkxygc201605009","title":"热处理对12Cr2Mo1R耐热钢断裂韧度的影响","volume":"34","year":"2016"},{"abstractinfo":"以能量为1.5 MeV/u，剂量分别为500，750，1000，1250，1500 Gy的电子束对1，2，4，6，8年等5种年份浓香型白酒进行辐照处理；扫描各酒样200～400 nm波段的紫外光谱，根据紫外光谱图的差异，计算了280～300 nm波段的光谱曲线相似度，分析光谱曲线变化规律。结果表明，对于前4种白酒，对照样与辐照样光谱曲线相似度值越小，催<span style=\"color:red\">陈</span>效果越好；白酒存放时间越久，酒体风格转向老熟所需剂量越小，越容易达到最佳催<span style=\"color:red\">陈</span>效果；对于8年白酒，辐照剂量超过750 Gy后，白酒体系动态平衡被打破，各单体物质增加，出现返生现象。因此，电子束辐照技术对低年份浓香型白酒催<span style=\"color:red\">陈</span>效果显著，是一种先进、高效的催<span style=\"color:red\">陈</span>方法。","authors":[{"authorName":"张苗苗","id":"16f2bee9-e276-4f55-95b1-9e627a4ac276","originalAuthorName":"张苗苗"},{"authorName":"陆栋","id":"6bd2c6ff-fa0f-4deb-9553-bfa0e40d3ab7","originalAuthorName":"陆栋"},{"authorName":"曹国珍","id":"ad44f083-8f23-4d8d-a41c-b6321e181155","originalAuthorName":"曹国珍"},{"authorName":"刘敬","id":"980de600-54b3-4c10-b2b1-7d36c88bd704","originalAuthorName":"刘敬"},{"authorName":"金文杰","id":"9d97782b-4400-438f-aa1a-efaa2ae74455","originalAuthorName":"金文杰"},{"authorName":"王菊芳","id":"7a171c96-4419-441c-8118-cabb35cc1b2c","originalAuthorName":"王菊芳"},{"authorName":"李文建","id":"db0225a5-b939-440c-a47d-2daa37f339b7","originalAuthorName":"李文建"}],"doi":"10.11804/NuclPhysRev.31.02.218","fpage":"218","id":"be399f10-d5ab-444a-9853-693337e4845a","issue":"2","journal":{"abbrevTitle":"YZHWLPL","coverImgSrc":"journal/img/cover/YZHWLPL.jpg","id":"78","issnPpub":"1007-4627","publisherId":"YZHWLPL","title":"原子核物理评论   "},"keywords":[{"id":"d27824cd-9a7d-40d6-ade5-08e57f3651e9","keyword":"白酒","originalKeyword":"白酒"},{"id":"a87d8a5f-52c5-438d-9818-ac05aa030ecd","keyword":"电子束","originalKeyword":"电子束"},{"id":"59b3d998-0774-4358-b00a-6ad942d1d4f2","keyword":"紫外可见光谱","originalKeyword":"紫外可见光谱"},{"id":"7662c117-7566-4173-b784-d5cf69060062","keyword":"光谱曲线相似度","originalKeyword":"光谱曲线相似度"},{"id":"ef90b8b5-c334-453a-8346-0f1341f1e34b","keyword":"催<span style=\"color:red\">陈</span>效果","originalKeyword":"催陈效果"}],"language":"zh","publisherId":"yzhwlpl201402017","title":"电子束辐照浓香型白酒催<span style=\"color:red\">陈</span>效果的研究","volume":"","year":"2014"},{"abstractinfo":"通过光片鉴定和电子探针分析,总结了内蒙古赤峰<span style=\"color:red\">陈</span>家杖子金矿床的矿石矿物组成,结构构造,划分了成矿期次.研究表明:矿床中矿石成分较复杂,硫化物种类多,有少量硫盐矿物出现;富硫贫砷毒砂、贫砷富硫黄铁矿、贫锌富铁的闪锌矿(与标准分子式相比),含杂质多的银锑黝铜矿和方铅矿与金关系密切;多金属硫化物阶段是该矿床的主要成矿阶段,其中第二世代富硫贫砷毒砂是<span style=\"color:red\">陈</span>家杖子金矿的最主要载金矿物,其次是方铅矿.结合流体包裹体测试和研究,确定该矿床为受大型角砾岩筒构造控制的低硫化型浅成低温热液矿床,该矿床深部有很大的找矿潜力.","authors":[{"authorName":"霍亮","id":"aa8459a3-b8df-471f-beb6-c0820f947fb7","originalAuthorName":"霍亮"},{"authorName":"李碧乐","id":"0542a65f-639d-436f-9395-33a31da28fa5","originalAuthorName":"李碧乐"},{"authorName":"黄勇","id":"c3eb9700-f7a0-4640-951f-31133483900c","originalAuthorName":"黄勇"},{"authorName":"王力","id":"74c22902-9e7c-40f8-8cad-6d663cf193da","originalAuthorName":"王力"}],"doi":"10.3969/j.issn.1001-1277.2007.10.002","fpage":"4","id":"d9d6227a-88ea-4727-89c6-a72289a7a8f9","issue":"10","journal":{"abbrevTitle":"HJ","coverImgSrc":"journal/img/cover/HJ.jpg","id":"44","issnPpub":"1001-1277","publisherId":"HJ","title":"黄金"},"keywords":[{"id":"342763a1-a09a-4924-a3cd-d93fd15d2580","keyword":"矿石矿物特征","originalKeyword":"矿石矿物特征"},{"id":"5ed5d2c9-7efa-4ac6-91b8-a288a651641c","keyword":"矿床成因","originalKeyword":"矿床成因"},{"id":"196f3b92-1f65-4e1d-a829-9ab98bb8b116","keyword":"<span style=\"color:red\">陈</span>家杖子金矿床","originalKeyword":"陈家杖子金矿床"}],"language":"zh","publisherId":"huangj200710002","title":"内蒙古赤峰<span style=\"color:red\">陈</span>家杖子金矿床矿物学特征及成因","volume":"28","year":"2007"},{"abstractinfo":"","authors":[],"doi":"","fpage":"46","id":"b10481d8-9fcb-4ee7-8505-4f79d8427c8a","issue":"4","journal":{"abbrevTitle":"JXGCCL","coverImgSrc":"journal/img/cover/JXGCCL.jpg","id":"45","issnPpub":"1000-3738","publisherId":"JXGCCL","title":"机械工程材料"},"keywords":[{"id":"710c4de7-f7cc-4461-8c11-e77989cb348b","keyword":"","originalKeyword":""}],"language":"zh","publisherId":"jxgccl200104016","title":"沉痛悼念<span style=\"color:red\">陈</span>南平教授","volume":"25","year":"2001"},{"abstractinfo":"","authors":[{"authorName":"袁诗璞","id":"a82194d2-9881-4fce-8406-77835330ad39","originalAuthorName":"袁诗璞"}],"doi":"","fpage":"51","id":"9dfdf4de-ff42-41a6-b31d-53aa585f2483","issue":"7","journal":{"abbrevTitle":"DDYTS","coverImgSrc":"journal/img/cover/DDYTS.jpg","id":"21","issnPpub":"1004-227X","publisherId":"DDYTS","title":"电镀与涂饰   "},"keywords":[{"id":"514640bb-ca30-45e9-87ed-b97a147f276a","keyword":"","originalKeyword":""}],"language":"zh","publisherId":"ddyts201107014","title":"第六<span style=\"color:red\">讲</span>——锌","volume":"30","year":"2011"},{"abstractinfo":"","authors":[{"authorName":"前言","id":"6a473608-4499-4a04-8c1c-af0798b47fd8","originalAuthorName":"前言"}],"doi":"","fpage":"54","id":"a46baa40-4541-4ec0-8492-47a3ee90b54b","issue":"3","journal":{"abbrevTitle":"DDYTS","coverImgSrc":"journal/img/cover/DDYTS.jpg","id":"21","issnPpub":"1004-227X","publisherId":"DDYTS","title":"电镀与涂饰   "},"keywords":[{"id":"5fa07125-2d98-4290-885f-ee6d4e071003","keyword":"","originalKeyword":""}],"language":"zh","publisherId":"ddyts201103015","title":"第二<span style=\"color:red\">讲</span>——偏","volume":"30","year":"2011"}],"totalpage":16,"totalrecord":152}