{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"通过对NiTiCu形状记忆合金丝加载不同电流,研究了电流及其加载时间对该合金丝变形速率和变形时间的影响,得到了电流与变形时间的经验关系式。结果表明:合金丝的变形时间随着电流的增大迅速减小,但当电流增加到一定值后,变形时间趋向平稳;当电流一定时,合金丝的变形角度均随电流加载时间的延长先缓慢再快速增大,最后趋向平稳,可见合金丝的变形速率先增加后减小;由电流与变形时间的经验关系式得到的曲线与测试数据吻合较好。","authors":[{"authorName":"朱深亮","id":"c27d0703-eb9a-43a6-bda4-a6763fe8b175","originalAuthorName":"朱深亮"},{"authorName":"董洪波","id":"de765f62-7429-4d45-a7f9-4876721eb2ee","originalAuthorName":"董洪波"},{"authorName":"张贵华","id":"50c9c1f7-ec59-4dd9-a573-a58d30916a23","originalAuthorName":"张贵华"},{"authorName":"吴宇龙","id":"134b424b-359e-4443-a9d3-1ffc5353a3a8","originalAuthorName":"吴宇龙"},{"authorName":"熊昱航","id":"5243c699-3d9b-4d49-aaf9-373d50567316","originalAuthorName":"熊昱航"},{"authorName":"赵海波","id":"a28be1bb-256a-4b02-a918-2adb057c7355","originalAuthorName":"赵海波"}],"doi":"10.11973/jxgccl201608004","fpage":"16","id":"2aa75ba1-fee1-493f-ae03-ac8e6cba9b52","issue":"8","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":"5a1076c1-3498-44a9-95dc-179357a46d13","keyword":"NiTiCu合金","originalKeyword":"NiTiCu合金"},{"id":"2dc80e66-e05f-4377-be19-2f9c85410ecc","keyword":"形状记忆效应","originalKeyword":"形状记忆效应"},{"id":"5f84901a-7766-45d2-a202-aafc4781299f","keyword":"电热驱动","originalKeyword":"电热驱动"},{"id":"609a78e1-7407-4a61-bff4-3a9d1d515505","keyword":"电流","originalKeyword":"电流"},{"id":"d4ea3f54-2e50-40f2-be3b-1c42e1684d07","keyword":"变形时间","originalKeyword":"变形时间"}],"language":"zh","publisherId":"jxgccl201608004","title":"电流对NiTiCu形状记忆合金丝电热驱动特性的影响","volume":"40","year":"2016"},{"abstractinfo":"针对树脂基防热材料长时间烧蚀后变形问题进行了分析,通过对某改性石英纤维织物/酚醛复合材料烧蚀后碳层厚度、不同温度线胀系数及力学性能的测试分析,提出内部热应力是导致材料长时间烧蚀后变形的主要原因.","authors":[{"authorName":"张宗强","id":"04f4e828-a4f7-4601-b855-736f3be2d7a7","originalAuthorName":"张宗强"},{"authorName":"匡松连","id":"7d5c2064-c173-4bdb-b91d-05d241c8d303","originalAuthorName":"匡松连"},{"authorName":"缪长礼","id":"05e80101-279e-40b8-9498-698a537a37ca","originalAuthorName":"缪长礼"},{"authorName":"尚龙","id":"ae762fe6-8697-430d-8c65-cafb3c57f8c7","originalAuthorName":"尚龙"}],"doi":"10.3969/j.issn.1007-2330.2012.02.013","fpage":"54","id":"8835c79d-d639-4946-8a10-cb7e72a05c23","issue":"2","journal":{"abbrevTitle":"YHCLGY","coverImgSrc":"journal/img/cover/YHCLGY.jpg","id":"77","issnPpub":"1007-2330","publisherId":"YHCLGY","title":"宇航材料工艺 "},"keywords":[{"id":"083e76ff-8174-48be-86f4-e808ff2fad9d","keyword":"树脂基防热材料","originalKeyword":"树脂基防热材料"},{"id":"733ee9b4-d00c-4fa7-89e7-3b02ba88def1","keyword":"长时间烧蚀","originalKeyword":"长时间烧蚀"},{"id":"cace75f6-6180-4e99-acd5-955fa711b57f","keyword":"变形","originalKeyword":"变形"}],"language":"zh","publisherId":"yhclgy201202013","title":"树脂基防热材料长时间烧蚀后的变形问题","volume":"42","year":"2012"},{"abstractinfo":"对6061-T6铝合金进行系统的单轴应变循环和应力循环实验,揭示该材料在室温和高温下的循环变形行为,讨论环境温度、加载速率、峰/谷值保持对其应变循环特性及棘轮行为的影响.结果表明,6061-T6铝合金表现出弱的循环软化特性,其棘轮行为不仅依赖于平均应力和应力幅值的大小,还依赖于加载历史.尽管该合金的单拉行为对应变率的变化不敏感,但其循环变形行为却体现出明显的时间相关特性,即:应变循环下,在峰/谷值有保持时的响应应力幅值明显小于没有保持时的值,且随着保持时间的增加,响应应力幅值将进一步减小;应力循环下,在峰值有保持时产生的棘轮应变比没有保持时的值大,且随着峰值保持时间的增加及应力率的降低,棘轮应变明显增大.","authors":[{"authorName":"丁俊","id":"2c0787ce-663b-4220-bed8-ca21de27f855","originalAuthorName":"丁俊"},{"authorName":"康国政","id":"5114a966-7ea4-4499-874d-5c07f1dbcb43","originalAuthorName":"康国政"},{"authorName":"刘宇杰","id":"4bc073b0-1eb3-4050-98dc-16cfa23d2354","originalAuthorName":"刘宇杰"},{"authorName":"王海林","id":"cc824157-635d-49ef-ba7c-fd34e6de4d8e","originalAuthorName":"王海林"}],"doi":"","fpage":"1993","id":"8082b185-f259-455e-a76f-85db44ecd027","issue":"12","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":"27528132-f50e-45cf-8d83-1bbdc66da8c6","keyword":"6061-T6铝合金","originalKeyword":"6061-T6铝合金"},{"id":"c4219210-c10f-4f57-886d-a70c1499675e","keyword":"循环载荷","originalKeyword":"循环载荷"},{"id":"ba2b7898-0895-4944-b32d-b0209ee5709e","keyword":"棘轮行为","originalKeyword":"棘轮行为"},{"id":"d0f49e12-42f2-42d4-84d0-23bd54c3e672","keyword":"时间相关","originalKeyword":"时间相关"}],"language":"zh","publisherId":"zgysjsxb200712014","title":"6061-T6铝合金单轴时间相关循环变形行为","volume":"17","year":"2007"},{"abstractinfo":"通过对Q235钢在Gleeble1500热模拟试验机上压缩变形后保温不同时间的显微组织进行观察,研究了变形量和变形后保温时间对形变诱导铁素体向奥氏体逆相变的影响.结果表明:在相同温度和相同变形速率下,随着变形量的增加,发生形变诱导铁素体逆相变的时间逐渐变短;同时随着保温时间的延长,铁素体的含量出现由多到少、再到多的变化趋势,而且铁索体出现了两种不同原因导致的晶粒长大.","authors":[{"authorName":"王倩","id":"01b5fa4a-925a-4577-8a7c-f791f4033079","originalAuthorName":"王倩"},{"authorName":"杨忠民","id":"9db23ec7-64c2-412f-b6b2-23986b7fd29c","originalAuthorName":"杨忠民"},{"authorName":"吴春京","id":"4e880fef-2dda-4fde-8fc7-a855fc6aa687","originalAuthorName":"吴春京"}],"doi":"","fpage":"12","id":"787eff43-fcc7-4189-90b3-b75dcdacfbe8","issue":"2","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":"ef02799a-4f2d-45bf-b5b2-285ea0e7815f","keyword":"形变诱导铁素体","originalKeyword":"形变诱导铁素体"},{"id":"8c777a71-2735-407b-8f54-40cf7382972a","keyword":"逆相变","originalKeyword":"逆相变"},{"id":"b3a48ad0-4aa8-4c48-8750-95d5505a9a8f","keyword":"Q235钢","originalKeyword":"Q235钢"}],"language":"zh","publisherId":"jxgccl200902004","title":"变形量和变形后保温时间对Q235钢形变诱导铁素体逆相变的影响","volume":"33","year":"2009"},{"abstractinfo":"对T6热处理后的6061Al合金与SiCp/6061Al合金复合材料(14%, 21%SiCp)的室温单轴循环变形行为进行了实验研究。讨论了基体合金和其复合材料在不同加载条件下的循环软/硬化行为和棘轮变形特征。实验研究表明:复合材料在宏观层次上体现出与基体相类似的应变循环特性和棘轮变形规律, 即复合材料在非对称应力循环下也将产生一定的棘轮变形, 并随应力幅值和平均应力的增加而增加; 颗粒的引入使复合材料抵抗棘轮变形的能力增强,棘轮变形随颗粒含量升高而下降; 复合材料的棘轮行为具有明显的时间相关特性, 棘轮应变值依赖于应力率和峰值保持时间。研究得到了一些有助于复合材料循环变形行为本构描述的结论。","authors":[{"authorName":"康国政","id":"95ba2994-3c7b-483c-b453-aa6f861ed213","originalAuthorName":"康国政"},{"authorName":"刘宇杰","id":"ee4d3844-3bbe-48ab-82be-0d5a672f1273","originalAuthorName":"刘宇杰"}],"categoryName":"|","doi":"","fpage":"59","id":"62ec625a-1a88-4c04-bad7-7fccd602ed86","issue":"1","journal":{"abbrevTitle":"JSXB","coverImgSrc":"journal/img/cover/JSXB.jpg","id":"48","issnPpub":"0412-1961","publisherId":"JSXB","title":"金属学报"},"keywords":[{"id":"46101e77-410f-404c-8183-c516f09cd445","keyword":"SiCp/6061Al合金复合材料","originalKeyword":"SiCp/6061Al合金复合材料"},{"id":"a65e8676-6e22-4887-bf60-b94b6c0cd393","keyword":"null","originalKeyword":"null"}],"language":"zh","publisherId":"0412-1961_2006_1_19","title":"SiCp/6061Al合金复合材料的单轴循环变形行为及其时间相关特性","volume":"42","year":"2006"},{"abstractinfo":"对T6热处理后的6061Al合金与SiCp/6061Al合金复合材料(14%,21%SiCp)的室温单轴循环变形行为进行了实验研究.讨论了基体合金和其复合材料在不同加载条件下的循环软/硬化行为和棘轮变形特征.实验研究表明:复合材料在宏观层次上体现出与基体相类似的应变循环特性和棘轮变形规律,即复合材料在非对称应力循环下也将产生一定的棘轮变形,并随应力幅值和平均应力的增加而增加;颗粒的引入使复合材料抵抗棘轮变形的能力增强,棘轮变形随颗粒含量升高而下降;复合材料的棘轮行为具有明显的时间相关特性,棘轮应变值依赖于应力率和峰值保持时间.研究得到了一些有助于复合材料循环变形行为本构描述的结论.","authors":[{"authorName":"康国政","id":"642ffa23-6108-4bc0-bce8-3d6d1dbed4a9","originalAuthorName":"康国政"},{"authorName":"刘宇杰","id":"3c57ff04-9cfb-43fa-95a8-344f7fbd74ac","originalAuthorName":"刘宇杰"}],"doi":"10.3321/j.issn:0412-1961.2006.01.011","fpage":"59","id":"700036f2-2f7f-4c5b-ab8c-0f1b8301f9c1","issue":"1","journal":{"abbrevTitle":"JSXB","coverImgSrc":"journal/img/cover/JSXB.jpg","id":"48","issnPpub":"0412-1961","publisherId":"JSXB","title":"金属学报"},"keywords":[{"id":"f83d55f8-9984-436f-8cd4-4197dc067d8e","keyword":"SiCp/6061Al合金复合材料","originalKeyword":"SiCp/6061Al合金复合材料"},{"id":"4b9e0d1e-4c30-4198-946f-ca9be8a69de4","keyword":"棘轮行为","originalKeyword":"棘轮行为"},{"id":"e5572faa-7934-4efd-93f6-48d41925f6e4","keyword":"时相关","originalKeyword":"时相关"}],"language":"zh","publisherId":"jsxb200601011","title":"SiCp/6061Al合金复合材料的单轴循环变形行为及其时间相关特性","volume":"42","year":"2006"},{"abstractinfo":"利用Gleeble-3500型热力模拟试验机研究了焊后冷却时间(t8/5)对X80级抗大变形管线钢焊接粗晶热影响区(CGHAZ)组织的影响。结果表明:当t8/5大于1000S时,CGHAZ组织主要由铁素体和少量珠光体组成;当t8/5在300-60S时,CGHAZ组织以粒状贝氏体为主;当t8/5为15S时,CGHAZ组织主要是板条贝氏体;当t8/5≤3s时,CGHAZ组织则以马氏体为主。","authors":[{"authorName":"胡美娟","id":"de634f6d-5e6d-49f4-a842-7a72f05fa17d","originalAuthorName":"胡美娟"},{"authorName":"韩新利","id":"6fee30ab-8f2b-4067-bfd9-aad574c10e08","originalAuthorName":"韩新利"},{"authorName":"何小东","id":"963fdf23-aa78-4ee7-9d81-dd28dcbf2616","originalAuthorName":"何小东"},{"authorName":"李金凤","id":"6afc77bc-7db0-428e-81d6-09f074ed0616","originalAuthorName":"李金凤"},{"authorName":"张蕾","id":"fe317f24-4abe-401a-ae2c-bc524bc9e9c8","originalAuthorName":"张蕾"}],"doi":"","fpage":"42","id":"1b3d55db-9f34-4e03-9dbc-58461e441881","issue":"6","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":"fe293ae9-646f-44ee-879c-a1c0737dead8","keyword":"X80级管线钢","originalKeyword":"X80级管线钢"},{"id":"bbdfd2b7-a395-4a2d-a523-b798b9848686","keyword":"热模拟","originalKeyword":"热模拟"},{"id":"1c230689-14e4-4f46-94b2-ea7c55be5d3c","keyword":"粗晶热影响区","originalKeyword":"粗晶热影响区"},{"id":"dc77f836-bd75-4c38-be99-8b5678d89173","keyword":"显微组织","originalKeyword":"显微组织"}],"language":"zh","publisherId":"jxgccl201206012","title":"焊后冷却时间对X80级抗大变形管线钢焊接粗晶热影响区组织的影响","volume":"36","year":"2012"},{"abstractinfo":"为了研究奥氏体不锈钢带在成形过程中的摩擦及变形特性,设计了一种耦合摩擦和变形的试验装置,在试验中分析了耦合变形量和滑动速度对摩擦系数、表层磨损和接触表层马氏体转变的影响.结果表明,在增加耦合变形量与滑动速度的条件下,钢带试样的摩擦系数随试验时间呈现明显的波动下降;对带试样磨损表面的X射线衍射分析表明,较高滑动速度使摩擦表层转变的马氏体组织增多,由于摩擦表层转变的马氏体组织剥离和产生磨粒磨损导致了摩擦系数的上下波动.","authors":[{"authorName":"宋冬冬","id":"45428f59-c7fd-48e6-9e03-458e15d7151d","originalAuthorName":"宋冬冬"},{"authorName":"高志","id":"cf2ec5cb-b5a3-44a0-b35c-92147c07b3af","originalAuthorName":"高志"},{"authorName":"刘健康","id":"b6465183-d447-42c3-a9fb-ba419de74dab","originalAuthorName":"刘健康"}],"doi":"","fpage":"56","id":"b4beab5a-3a29-4270-b232-003fd87b5120","issue":"7","journal":{"abbrevTitle":"GTYJXB","coverImgSrc":"journal/img/cover/GTYJXB.jpg","id":"30","issnPpub":"1001-0963","publisherId":"GTYJXB","title":"钢铁研究学报"},"keywords":[{"id":"7aa46e25-227e-41ad-b0da-f8ca20520196","keyword":"耦合变形摩擦试验","originalKeyword":"耦合变形摩擦试验"},{"id":"462c9f5f-bc8a-474f-8832-f13101b9ee66","keyword":"摩擦系数","originalKeyword":"摩擦系数"},{"id":"96ae94ff-a86b-41c7-8a6c-ef054840d3a1","keyword":"耦合","originalKeyword":"耦合"}],"language":"zh","publisherId":"gtyjxb200907014","title":"耦合变形摩擦试验","volume":"21","year":"2009"},{"abstractinfo":"解析了CSP工艺衔接区的时间和事件以及它们之间的对应关系.在此基础上,以薄板坯连铸连轧生产线衔接区为例,计算出事件对应的时间点和活动对应的时间域,从而得出衔接区的时间节奏.提出了衔接区时间优化问题,指出了时间优化的原则和前提条件.","authors":[{"authorName":"徐华","id":"c4ca1793-e165-453f-85c7-c1418df19445","originalAuthorName":"徐华"},{"authorName":"杨俊","id":"aa7c3e65-35ba-401e-91be-d8abe66d606f","originalAuthorName":"杨俊"},{"authorName":"武志平","id":"2af9758b-8765-4044-809d-922f2117aa1b","originalAuthorName":"武志平"},{"authorName":"韩静涛","id":"3144d255-0fe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mm、60mm、100 mm,初始水温36~88℃,过热度2.1~48℃.实验结果表明:过热度及水位高度是影响闪蒸时间的主要因素,过热度及水位高度越大,闪蒸时间越长;过热度相同时,初始水温对闪蒸时间的影响很小.通过对实验数据分析,拟合出瞬态闪蒸时间的计算关联式.","authors":[{"authorName":"郭迎利","id":"2e94980e-5bbf-479e-8212-bbf7cd0fa105","originalAuthorName":"郭迎利"},{"authorName":"严俊杰","id":"9d2d5c59-8d84-4650-ad8c-5fdb26c3c539","originalAuthorName":"严俊杰"},{"authorName":"邓炜","id":"51d3662e-1e9e-45af-9d77-0c76ac5a7b50","originalAuthorName":"邓炜"},{"authorName":"刘继平","id":"8ce0cbfb-9dc9-4574-bd63-7556d869c9d4","originalAuthorName":"刘继平"},{"authorName":"种道彤","id":"43c1cb34-833d-4cd9-98cd-27bcf6de164b","originalAuthorName":"种道彤"}],"doi":"","fpage":"1339","id":"1302a17b-61a3-402e-81d9-b85a67929539","issue":"8","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":"7fb1218e-91a7-425b-9bb6-f9cc5bc01fd1","keyword":"瞬态闪蒸","originalKeyword":"瞬态闪蒸"},{"id":"fdc56ff0-a3a2-43ad-a73c-4b3afd55c8a8","keyword":"闪蒸时间","originalKeyword":"闪蒸时间"},{"id":"b674d574-a13a-423c-8c7a-472961a2680d","keyword":"过热度","originalKeyword":"过热度"},{"id":"37039178-a55d-4864-b53b-1947d85c8418","keyword":"水位高度","originalKeyword":"水位高度"},{"id":"6faa40c1-ea3d-4ce6-8dd0-90ea4a409e57","keyword":"初始水温","originalKeyword":"初始水温"}],"language":"zh","publisherId":"gcrwlxb200908022","title":"池水瞬态闪蒸时间的实验研究","volume":"30","year":"2009"}],"totalpage":3415,"totalrecord":34145}