{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"采用4种典型的热机械循环方法训练获取具有双程形状记忆效应的镍钛合金丝,从双程形状回复量、高温相形状、低温相形状和相变温度的变化等方面系统研究了训练方法对双程形状记忆效应训练效果的影响.结果表明,在不同训练方法中镍钛合金丝被加载应变时所处的物质相态的差异是造成不同训练效果的主要原因,其中在马氏体相变过程中因加栽引入的位错最有利于双程形状记忆效应的形成.","authors":[{"authorName":"罗洪艳","id":"e132d2b5-867b-483b-b52f-53c03f7eb7c8","originalAuthorName":"罗洪艳"},{"authorName":"牟波","id":"2c279003-83c5-4817-b40f-fd8999ae0bee","originalAuthorName":"牟波"},{"authorName":"廖彦剑","id":"c995bc4f-be2a-439c-8f23-b500bfde6c10","originalAuthorName":"廖彦剑"},{"authorName":"侯文生","id":"eb5d86b3-fc88-4989-9e61-3e682b79bcdc","originalAuthorName":"侯文生"},{"authorName":"杨军","id":"9a3b105d-99dc-4dda-82f5-a953d9f23324","originalAuthorName":"杨军"},{"authorName":"郑小林","id":"8d1bef7d-4f49-4167-996e-c2620e1fade4","originalAuthorName":"郑小林"}],"doi":"","fpage":"55","id":"06bb28d2-fdbc-4e95-8261-893a003a2283","issue":"12","journal":{"abbrevTitle":"CLDB","coverImgSrc":"journal/img/cover/CLDB.jpg","id":"8","issnPpub":"1005-023X","publisherId":"CLDB","title":"材料导报"},"keywords":[{"id":"34a960d2-845d-43c1-a75e-0d0202586c27","keyword":"NiTi合金","originalKeyword":"NiTi合金"},{"id":"a9e5c70b-4eb1-45e7-b90b-908ff486b945","keyword":"热机械循环训练方法","originalKeyword":"热机械循环训练方法"},{"id":"f3459a8d-414b-4699-a2e5-2e7e6f13d62c","keyword":"双程形状记忆效应","originalKeyword":"双程形状记忆效应"}],"language":"zh","publisherId":"cldb200912017","title":"热机械循环方法对训练NiTi合金双程形状记忆效应的影响","volume":"23","year":"2009"},{"abstractinfo":"一种自行研制的形状记忆合金双程记忆效应的热机械训练装置由机械平台、滚动测量模块、电流控制器、温度传感器和数据采集系统构成.该装置通过安装在滚动测量模块上的光电编码器测量记忆合金型材在训练过程中的形状变化,采用温度传感器测量其温度变化,以基于功率放大器的电流控制器控制其加热电流,并通过数据采集控制系统对训练数据进行采集、显示、存储.结果表明,该装置能有效训练形状记忆合金的双程记忆效应,适用于多种热机械训练方法和多种形状记忆合金型材,更具普适性和灵活性.","authors":[{"authorName":"廖彦剑","id":"945a3ba4-608f-4bea-b2df-9773717eb55c","originalAuthorName":"廖彦剑"},{"authorName":"罗洪艳","id":"d4617877-8045-455f-8bf7-814800465218","originalAuthorName":"罗洪艳"},{"authorName":"牟波","id":"b6d7833d-1e63-4b28-a3aa-ea01e4af8dd6","originalAuthorName":"牟波"},{"authorName":"刘霞","id":"3b7a438e-8565-4082-8365-e29914195caf","originalAuthorName":"刘霞"},{"authorName":"郑小林","id":"0fe6108c-3cc4-423a-9d96-1c5551db4ec1","originalAuthorName":"郑小林"},{"authorName":"杨军","id":"bfff9b7f-4d95-411f-9188-9dd492838d60","originalAuthorName":"杨军"}],"doi":"","fpage":"1","id":"bdc7e9a2-649d-4b7b-a09f-cfda69650041","issue":"18","journal":{"abbrevTitle":"CLDB","coverImgSrc":"journal/img/cover/CLDB.jpg","id":"8","issnPpub":"1005-023X","publisherId":"CLDB","title":"材料导报"},"keywords":[{"id":"6950be54-a028-4c6e-b548-530d5058cff4","keyword":"形状记忆合金","originalKeyword":"形状记忆合金"},{"id":"2fc9834c-6f60-4e08-886a-e1c4e49ffbc3","keyword":"双程形状记忆效应","originalKeyword":"双程形状记忆效应"},{"id":"a8f2ab07-8758-4519-ba00-c917e6440751","keyword":"热机械训练装置","originalKeyword":"热机械训练装置"}],"language":"zh","publisherId":"cldb201018001","title":"一种形状记忆合金双程记忆效应热机械训练装置的研制","volume":"24","year":"2010"},{"abstractinfo":"研究了热机械循环训练对Fe-Mn-Si-Cr-Ni-C系合金形状记忆效应的影响.结果表明:对于不同碳含量的3种合金,只要中间退火温度选择适当,热机械循环训练都可显著提高合金的形状记忆效应.合金的最佳中间退火温度随碳含量的增加而升高.含碳最低(＜0.02%)合金的最佳中间退火温度为550℃,而含碳0.18%舍金的最佳退火温度高达1050℃.经TEM分析,发现对于低含碳量(≤0.12%)的两种合金,热机械循环训练提高合金形状记忆效应的机制是层错增加机制;而对于含碳量0.18%的合金,其机制是第二相的析出作用.","authors":[{"authorName":"李宁","id":"6bcd7be3-684a-4a5e-a954-87dee0b5b772","originalAuthorName":"李宁"},{"authorName":"文玉华","id":"2259d2ee-4ae7-443f-a858-22e6c5fedaf5","originalAuthorName":"文玉华"}],"doi":"","fpage":"1665","id":"0f8f06e5-c9da-4c17-a3b0-3ae1c65844e9","issue":"z1","journal":{"abbrevTitle":"GNCL","coverImgSrc":"journal/img/cover/GNCL.jpg","id":"33","issnPpub":"1001-9731","publisherId":"GNCL","title":"功能材料"},"keywords":[{"id":"603db1c8-e383-4f67-a4a2-c7b530f6b348","keyword":"形状记忆合金","originalKeyword":"形状记忆合金"},{"id":"ed9b2092-87de-4a52-9a0f-089c40be3a76","keyword":"热机械循环训练","originalKeyword":"热机械循环训练"},{"id":"8c204e90-4559-43fb-b8df-62e39537fdc5","keyword":"碳含量","originalKeyword":"碳含量"}],"language":"zh","publisherId":"gncl2004z1466","title":"Fe-Mn-Si-Cr-Ni-C系形状记忆合金中一种新的热机械循环训练机制","volume":"35","year":"2004"},{"abstractinfo":"利用示差扫描量热法(DSC)研究了TiNiCu双向记忆弹簧训练过程中热机械训练及退火对合金相变特征的影响.结果表明,训练前升温时,DSC曲线表现出的吸热峰由多个小峰组成,随着训练次数的增加,峰的个数减少,具有稳定双向记忆效应的试样中,升温时只出现一个锐利的峰.这是因为在训练过程中引入特定取向的位错,产生一定的应力场,使得马氏体变体的取向比较一致,相变点基本相同所致.由于位错的引入,引起相变点As和Af下降.训练不同次数的样品400℃退火后,由多个小峰组成的吸热峰合并为一个峰,这是由退火导致热机械训练诱发特定取向的位错恢复引起的.","authors":[{"authorName":"王治国","id":"0953e10a-f1d0-4012-b8ca-4322f0517026","originalAuthorName":"王治国"},{"authorName":"祖小涛","id":"36b6c7a0-12d5-4834-8028-6507d72ab39f","originalAuthorName":"祖小涛"},{"authorName":"封向东","id":"0b23ac50-8716-4f29-9bf4-5a3a837f8d63","originalAuthorName":"封向东"},{"authorName":"邓炯","id":"b444b42a-798f-48f9-a138-7d4ff5ae4027","originalAuthorName":"邓炯"},{"authorName":"戴晶怡","id":"97eeb2ae-60af-409f-b068-dee66658de6c","originalAuthorName":"戴晶怡"},{"authorName":"傅平","id":"2d00a21a-2912-40c3-ab55-71a77a830874","originalAuthorName":"傅平"}],"doi":"10.3969/j.issn.1005-5053.2004.03.001","fpage":"1","id":"4350604c-5708-46b9-a3d0-ecf6ea611ab0","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":"7b5fdc60-3a42-4e29-8214-c58fc78e3cd3","keyword":"TiNiCu形状记忆合金","originalKeyword":"TiNiCu形状记忆合金"},{"id":"4ec0ef34-d3d3-47f5-8ae7-94a54abd9e65","keyword":"热机械训练","originalKeyword":"热机械训练"},{"id":"1830f22a-de79-437c-84fd-953a75a9096f","keyword":"双向记忆效应","originalKeyword":"双向记忆效应"},{"id":"8253f8a7-936b-4186-8384-28a9fef0fc1e","keyword":"DSC","originalKeyword":"DSC"}],"language":"zh","publisherId":"hkclxb200403001","title":"TiNiCu形状记忆合金热机械训练诱发双向记忆效应的DSC曲线特征","volume":"24","year":"2004"},{"abstractinfo":"本文对不同的热机械训练温度下TiNiCu形状记忆合金弹簧的双向记忆效应进行了研究,还研究了不同温度的约束热处理对TiNiCu合金弹簧的形状回复率的影响,结果表明在500℃约束热处理一小时后的双向回复率最好.","authors":[{"authorName":"李华","id":"71cf86b3-7e8d-4089-9fcd-b3f570d553f0","originalAuthorName":"李华"},{"authorName":"马颖","id":"d7fbe5fd-60af-4d95-9acd-6efb150e18df","originalAuthorName":"马颖"}],"doi":"10.3969/j.issn.1000-6826.2006.05.012","fpage":"34","id":"5abedfa2-ce8e-4a01-a839-d0f597b0f34f","issue":"5","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":"ec649859-85e0-4a19-b72d-28ba003ca52e","keyword":"TiNiCu","originalKeyword":"TiNiCu"},{"id":"ce869e10-bb51-4d61-b808-028f20cfc132","keyword":"形状记忆合金","originalKeyword":"形状记忆合金"},{"id":"aa190698-1b7d-439b-9474-f82334c526c0","keyword":"双向记忆效应","originalKeyword":"双向记忆效应"},{"id":"2b2844cf-cb0f-4bbb-849a-c1a26df07bc1","keyword":"热机械训练","originalKeyword":"热机械训练"}],"language":"zh","publisherId":"jssj200605012","title":"热机械训练温度对TiNiCu合金弹簧双向记忆效应影响的研究","volume":"","year":"2006"},{"abstractinfo":"研究了(SIM+SME)训练法中的Cu-Zn-Al合金单向形状记忆效应ηO和双向形状记忆效应ηT.结果表明:随训练次数增加, 位错增加,晶格原子有序度降低,单向形状记忆效应先急剧下降,然后缓慢下降和趋于稳定.基本稳定时的单向形状记忆效应不到初时值的50%.伴随位错增加,引入更多择优取向位错,促使形成更多择优取向马氏体,导致双向形状记忆效应急剧上升,训练9次之内出现峰值,然后缓慢上升和趋于稳定.基本稳定时的双向形状记忆效应相当于峰值的64%～88%.同时,随训练次数增加,单向记忆的动作敏感性下降,然后趋于稳定.与初期动作敏感性值相比,1号合金基本稳定时下降58%.在元件设计中应注意动作敏感性下降问题和形状记忆效应下降问题.","authors":[{"authorName":"黄婉霞","id":"d8096eae-c816-425b-8952-4e9b3c4f1e57","originalAuthorName":"黄婉霞"},{"authorName":"宋之敏","id":"f935eaeb-fb33-4fa5-9a78-3f398d0fa23c","originalAuthorName":"宋之敏"}],"doi":"10.3969/j.issn.1005-5053.2004.05.002","fpage":"7","id":"ec0e5416-634b-435a-aed2-018fae867a0f","issue":"5","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":"932e3e6b-811f-4046-8780-0aa03e6a1c5c","keyword":"Cu基形状记忆合金","originalKeyword":"Cu基形状记忆合金"},{"id":"57cf88ae-4847-4829-b8f6-baab8d739da6","keyword":"(SIM+SME)训练法","originalKeyword":"(SIM+SME)训练法"},{"id":"69f83f2e-c815-4448-8325-74e4111c8014","keyword":"形状记忆效应","originalKeyword":"形状记忆效应"},{"id":"163e849c-afa1-4719-b38f-92ef5a7a5f34","keyword":"记忆动作敏感性","originalKeyword":"记忆动作敏感性"}],"language":"zh","publisherId":"hkclxb200405002","title":"(SIM+SME)训练方法中的Cu-Zn-Al合金形状记忆效应研究","volume":"24","year":"2004"},{"abstractinfo":"采用金相、XRD、SEM和TEM等对Fe-Mn-Si系形状记忆合金在热机械训练过程中组织的演变进行研究.结果表明:热机械训练是应力诱发γ→ε马氏体相变及其逆相变过程的重复.训练前的组织中几乎不存在马氏体,训练后合金中应力诱发的ε马氏体分布比较均匀,相互平行,交叉现象较少.同时,晶体中的马氏体呈现ε马氏体区域择优取向,过多(5次以上)训练后,合金基体内部形成大量位错缠结.","authors":[{"authorName":"卢棋","id":"effb94f0-b3e5-4e2e-ad4e-22f959ef5292","originalAuthorName":"卢棋"},{"authorName":"何国球","id":"1a60b92a-78ed-44f8-8e2a-cbcc8a9eea85","originalAuthorName":"何国球"},{"authorName":"陈淑娟","id":"4b2e6db3-1d9f-449d-87ca-489810e2221c","originalAuthorName":"陈淑娟"},{"authorName":"佘萌","id":"bb66ff75-1f7d-4726-b531-47a6866fd5ef","originalAuthorName":"佘萌"},{"authorName":"刘(飏)","id":"6108d303-5939-4d94-93fe-7567862b5ebd","originalAuthorName":"刘(飏)"},{"authorName":"杨洋","id":"a1c73fce-6037-4914-bf09-eee829f2956a","originalAuthorName":"杨洋"},{"authorName":"朱旻昊","id":"f9c7c74c-4fe0-4887-8ba6-0a0a4bd27005","originalAuthorName":"朱旻昊"}],"doi":"10.11868/j.issn.1001-4381.2015.04.002","fpage":"8","id":"029c3a77-2dd3-46a0-9baa-cb241f1dc610","issue":"4","journal":{"abbrevTitle":"CLGC","coverImgSrc":"journal/img/cover/CLGC.jpg","id":"9","issnPpub":"1001-4381","publisherId":"CLGC","title":"材料工程"},"keywords":[{"id":"b766834c-540e-40dd-b8d4-cdc7763828be","keyword":"Fe-Mn-Si系记忆合金","originalKeyword":"Fe-Mn-Si系记忆合金"},{"id":"c9db269c-5bdd-4913-8f3e-f13d80675998","keyword":"热机械训练","originalKeyword":"热机械训练"},{"id":"5c487391-6ec0-4155-a57c-3932209f0fb8","keyword":"组织演变","originalKeyword":"组织演变"},{"id":"4ec2e337-6aa1-4639-a24c-e62e0e15f7db","keyword":"马氏体","originalKeyword":"马氏体"}],"language":"zh","publisherId":"clgc201504002","title":"热机械训练过程中Fe-Mn-Si系形状记忆合金的组织演变","volume":"43","year":"2015"},{"abstractinfo":"利用示差扫描量热法(DSC)研究了加热伸长、冷却收缩和加热收缩、冷却伸长2种TiNiCu双向记忆效应弹簧训练过程中相变特征.研究结果表明,训练前升温时,DSC曲线表现出吸热峰由多个小峰组成,随着训练次数的增加,峰的个数减少,具有稳定双向记忆效应的试样中,升温时只出现1个锐利的峰.这是因为在训练过程中引入特定取向的位错,产生一定的应力场,使得马氏体变体的取向比较一致,相变点基本相同所导致.并由于位错的引入,引起相变点As和Af下降.","authors":[{"authorName":"王治国","id":"29bb29ac-8b8e-4d00-acb5-d0261133472a","originalAuthorName":"王治国"},{"authorName":"祖小涛","id":"4ba12dcb-8647-45e4-877c-da23df52c577","originalAuthorName":"祖小涛"},{"authorName":"吴继红","id":"4d7d94ad-6da9-442e-a241-919c34f6a533","originalAuthorName":"吴继红"},{"authorName":"戴晶怡","id":"8f58850f-e3b2-476d-a8ff-2a5c07f6b05c","originalAuthorName":"戴晶怡"},{"authorName":"傅平","id":"907cd235-bae9-4547-b99d-39534301d859","originalAuthorName":"傅平"},{"authorName":"杨树正","id":"f28c909f-34f3-4672-b384-edd96742ba44","originalAuthorName":"杨树正"}],"doi":"","fpage":"1052","id":"96b5a4d5-3c65-43f9-8a54-61aa42e8cb33","issue":"10","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":"923ca348-7384-4534-a7d5-144907aea021","keyword":"TiNiCu形状记忆合金","originalKeyword":"TiNiCu形状记忆合金"},{"id":"c5355372-a6eb-42cf-adcc-82a816c379a7","keyword":"热机械训练","originalKeyword":"热机械训练"},{"id":"d544187a-597b-4339-a852-6a5ed531ca7b","keyword":"双向记忆效应","originalKeyword":"双向记忆效应"},{"id":"39b85d2d-03e5-43ae-bac9-708e6598855d","keyword":"DSC","originalKeyword":"DSC"}],"language":"zh","publisherId":"xyjsclygc200410011","title":"热机械训练影响TiNiCu记忆合金DSC曲线特征的研究","volume":"33","year":"2004"},{"abstractinfo":"采用拉压对称的机械应变控制, 研究了Ti-6-22-22合金在200~400℃和200~520℃两个温度范围的热机械疲劳(TMF)行为. 结果表明,\n在200~400℃内, 同相和反相热机械疲劳寿命均高于400℃等温疲劳寿命; 在200~520℃范围, 反相热机械疲劳寿命明显低于520℃等温疲劳寿命.\n在两个温度范围内, 热机械疲劳的循环应力都与相应等温疲劳的循环应力响应有关. 纵向剖面金相观察表明, 520℃时等温疲劳表面的裂纹更长.\n循环温度范围扩大导致环境破坏作用增强是热机械疲劳具有明显破坏作用的原因.","authors":[{"authorName":"虞忠良","id":"817a9247-21b3-40ae-a2f2-16308dfcbd8d","originalAuthorName":"虞忠良"},{"authorName":"李守新","id":"af673d5c-72dc-478d-8e78-80c0b265e0b5","originalAuthorName":"李守新"},{"authorName":"刘羽寅","id":"5dfba72d-a22b-4445-8bde-774401cf2ef7","originalAuthorName":"刘羽寅"},{"authorName":"雷家峰","id":"30d13930-6dce-4c61-8980-930fc688b18c","originalAuthorName":"雷家峰"}],"categoryName":"|","doi":"","fpage":"139","id":"87c179c8-b734-4303-b112-f3efe97c487a","issue":"2","journal":{"abbrevTitle":"CLYJXB","coverImgSrc":"journal/img/cover/CLYJXB.jpg","id":"16","issnPpub":"1005-3093","publisherId":"CLYJXB","title":"材料研究学报"},"keywords":[{"id":"3081f480-6733-4c35-87a0-e4269545ca52","keyword":"金属材料","originalKeyword":"金属材料"},{"id":"061d2895-da34-4a54-9952-1b172cbf593a","keyword":"Ti-6-22-22","originalKeyword":"Ti-6-22-22"},{"id":"4a3a8cb0-3a25-4c3d-90ee-4cd4a44bb4d6","keyword":"thermo-mechanical fatigue","originalKeyword":"thermo-mechanical fatigue"},{"id":"83102bb7-3616-4ded-bc45-d8f588e1fcf6","keyword":"isothermal fatigue","originalKeyword":"isothermal fatigue"}],"language":"zh","publisherId":"1005-3093_2004_2_7","title":"循环温度范围对Ti--6--22--22合金热机械疲劳行为的影响","volume":"18","year":"2004"},{"abstractinfo":"采用拉压对称的机械应变控制,研究了Ti-6-22-22合金在200～400℃和200～520℃两个温度范围的热机械疲劳(TMF)行为.结果表明,在200～400℃内,同相和反相热机械疲劳寿命均高于400℃等温疲劳寿命;在200～520℃范围,反相热机械疲劳寿命明显低于520℃等温疲劳寿命.在两个温度范围内,热机械疲劳的循环应力都与相应等温疲劳的循环应力响应有关.纵向剖面金相观察表明,520℃时等温疲劳表面的裂纹更长.循环温度范围扩大导致环境破坏作用增强是热机械疲劳具有明显破坏作用的原因. ","authors":[{"authorName":"虞忠良","id":"43dea04f-7324-47f8-8e2b-1d09f3183ee4","originalAuthorName":"虞忠良"},{"authorName":"李守新","id":"8e8c2c7c-62e3-4a78-b8dd-97da75fbd807","originalAuthorName":"李守新"},{"authorName":"刘羽寅","id":"0359c579-c754-4e4f-8372-868803d40bf8","originalAuthorName":"刘羽寅"},{"authorName":"雷家峰","id":"c8508381-7bb6-4e53-b5e7-049ba5468910","originalAuthorName":"雷家峰"}],"doi":"10.3321/j.issn:1005-3093.2004.02.005","fpage":"139","id":"cc297795-4b1a-4b18-a67d-6b34d9c53696","issue":"2","journal":{"abbrevTitle":"CLYJXB","coverImgSrc":"journal/img/cover/CLYJXB.jpg","id":"16","issnPpub":"1005-3093","publisherId":"CLYJXB","title":"材料研究学报"},"keywords":[{"id":"1007ec35-f538-49d2-bcb7-d64fccaf1359","keyword":"金属材料","originalKeyword":"金属材料"},{"id":"27c10e42-873c-4787-9379-3860a8d4fe5a","keyword":"Ti-6-22-22合金","originalKeyword":"Ti-6-22-22合金"},{"id":"07f66590-e94c-4787-b39c-1fb1164a9435","keyword":"热机械疲劳","originalKeyword":"热机械疲劳"},{"id":"61425e28-d964-4cc0-9e4a-d94a0f9f0edc","keyword":"等温疲劳","originalKeyword":"等温疲劳"},{"id":"b6d2bea0-9c6d-4f6e-b070-910cf2fc2d91","keyword":"同相","originalKeyword":"同相"},{"id":"f05ec738-6a0c-4a71-bce7-3160c8c70997","keyword":"反相","originalKeyword":"反相"}],"language":"zh","publisherId":"clyjxb200402005","title":"循环温度范围对Ti-6-22-22合金热机械疲劳行为的影响","volume":"18","year":"2004"}],"totalpage":6459,"totalrecord":64588}