金属学报,
1986, 22(6): 110-113.
含16.7at.-%La的Ni-Fe-La三元系合金相图及其贮氢性能
王朝果
, 戴守愚
{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"193nm ArF准分子激光光刻技术已广泛应用于90 nm以下节点半导体量产.分析了近期发展用于改进准分子激光性能的关键技术:主振-功率再生放大(MOPRA)结构,主振-功率振荡(MOPO)结构,主动光谱带宽稳定技术,先进的气体管理技术.对光刻用准分子激光光源技术发展趋势进行了简要的讨论.","authors":[{"authorName":"游利兵","id":"bff1924f-093e-423d-988b-d30b9e8d0310","originalAuthorName":"游利兵"},{"authorName":"
周翊","id":"304dbb18-3beb-45b1-8944-bd093159bb4d","originalAuthorName":"周翊"},{"authorName":"梁勖","id":"2f7c6b5e-b9d6-4390-9f44-d985b07ea421","originalAuthorName":"梁勖"},{"authorName":"余吟山","id":"31d6a3bf-97ec-4319-9d99-49892e2d47de","originalAuthorName":"余吟山"},{"authorName":"方晓东","id":"3f174457-6071-4631-8c56-a8748c0fe3a5","originalAuthorName":"方晓东"},{"authorName":"王宇","id":"6d6a436b-19fb-4172-9324-20f67605fec1","originalAuthorName":"王宇"}],"doi":"10.3969/J.issn.1007-5461.2010.05.002","fpage":"522","id":"07486662-df0d-42a0-bb0e-53ef91c575f4","issue":"5","journal":{"abbrevTitle":"LZDZXB","coverImgSrc":"journal/img/cover/LZDZXB.jpg","id":"53","issnPpub":"1007-5461","publisherId":"LZDZXB","title":"量子电子学报 "},"keywords":[{"id":"15cb7053-1b4c-40f2-b1ee-785c0e8b34b4","keyword":"激光技术","originalKeyword":"激光技术"},{"id":"2bf58d6b-4005-45e5-a53c-6892d869f726","keyword":"ArF准分子激光","originalKeyword":"ArF准分子激光"},{"id":"70980ec7-2ba3-4722-afbe-41579dedeff9","keyword":"光刻","originalKeyword":"光刻"},{"id":"3925720f-cc64-45d3-85c1-324ba0836aed","keyword":"双图形","originalKeyword":"双图形"}],"language":"zh","publisherId":"lzdzxb201005002","title":"近期光刻用ArF准分子激光技术发展","volume":"27","year":"2010"},{"abstractinfo":"设计了一种应用于准分子激光器的高精度温度控制系统,可对准分子激光器放电腔的温度进行实时采集、显示、控制,达到维持激光器腔体温度恒定的目的,从而改善激光器的工作性能如能量稳定性和使用寿命等.系统采用飞思卡尔单片机,以比例阀作为控温执行器件,并且设计了软硬件和优化的控制算法.实验结果表明:在三种不同PID控制方式下,系统控制精度皆能达到±0.2℃;在改进的智能PID控制下,系统超调变小、调节时间减少;在100 Hz和500 Hz不同重频条件下,系统采用智能PID控制时,运行稳定.因此,本系统可为激光器的运行提供良好的温度控制环境.","authors":[{"authorName":"胡明庆","id":"a05ccb34-f40c-4bc9-9cfa-ee36e11d6e17","originalAuthorName":"胡明庆"},{"authorName":"韩晓泉","id":"9801ab4a-e43e-4797-b5da-574314371b70","originalAuthorName":"韩晓泉"},{"authorName":"
周翊","id":"5ddd10ed-ce1e-4708-b8d4-a48fcaf08138","originalAuthorName":"周翊"},{"authorName":"冯泽斌","id":"21ffffcc-9a3a-44a5-8801-20d38bb211f9","originalAuthorName":"冯泽斌"},{"authorName":"
周维虎","id":"f601e315-d90c-4115-96de-3af21ceb225b","originalAuthorName":"周维虎"},{"authorName":"白路军","id":"8cd81f47-88a4-4b72-ab85-4cf7f26530c9","originalAuthorName":"白路军"}],"doi":"10.3969/j.issn.1007-5461.2015.04.008","fpage":"431","id":"6395a5ee-8aa1-473b-bdd0-2a9d09db1a2d","issue":"4","journal":{"abbrevTitle":"LZ","coverImgSrc":"journal/img/cover/LZ.jpg","id":"52","issnPpub":"1005-4006","publisherId":"LZ","title":"连铸"},"keywords":[{"id":"ac39e841-a86f-4ec6-8717-34221670617b","keyword":"激光技术","originalKeyword":"激光技术"},{"id":"6906f0a7-3ff0-435b-abf9-c73ddd217b83","keyword":"温度控制","originalKeyword":"温度控制"},{"id":"1f0d1602-0ee4-49ca-9c6a-881e52f37479","keyword":"智能PID","originalKeyword":"智能PID"},{"id":"a4cd36bf-803c-4a91-be94-4e7a92bad39e","keyword":"准分子激光器","originalKeyword":"准分子激光器"},{"id":"9fe00e43-42fc-4d2b-bdf7-e5f026f5c5b4","keyword":"算法","originalKeyword":"算法"}],"language":"zh","publisherId":"lzdzxb201504008","title":"准分子激光器温度控制系统设计","volume":"32","year":"2015"},{"abstractinfo":"利用自成像共焦腔,开展了一维光纤激光阵列相干合成的实验研究,实现了掺Yb3+双包层光纤激光阵列的相位锁定,得到了基于一维光纤激光阵列自成像共焦腔的远场强度分布图样.根据其数学模型及理论计算,合理选择了空间滤波器宽度,验证了空间滤波器在合成激光不同位置对不同相干成分模式所引入的损耗抑制作用,从实验上证实了空间滤波器在相干合成中实现模式选择的机理.","authors":[{"authorName":"徐子超","id":"adee311f-5bb0-4d67-90aa-8373125670d9","originalAuthorName":"徐子超"},{"authorName":"宋兴亮","id":"e98cf7d8-4566-4e81-a6da-433e1bb55a59","originalAuthorName":"宋兴亮"},{"authorName":"
周翊","id":"aa6423ae-192c-4c65-b393-bd00d2422757","originalAuthorName":"周翊"}],"doi":"10.3969/j.issn.1007-5461.2011.03.007","fpage":"293","id":"bb19fc49-cede-4e18-b130-7944cdeafa4a","issue":"3","journal":{"abbrevTitle":"LZDZXB","coverImgSrc":"journal/img/cover/LZDZXB.jpg","id":"53","issnPpub":"1007-5461","publisherId":"LZDZXB","title":"量子电子学报 "},"keywords":[{"id":"a3e0ee79-5a6d-4b90-8496-a4c6b9f019ae","keyword":"激光技术","originalKeyword":"激光技术"},{"id":"acf6e326-b3e6-4e53-9fd2-d0c86a3b8cdf","keyword":"相干合成","originalKeyword":"相干合成"},{"id":"360a228e-04a8-4f75-9a3a-1affdc027dc9","keyword":"模式选择","originalKeyword":"模式选择"},{"id":"1c0b7c0b-df57-4f2e-ab63-8c16a0f95fc0","keyword":"自成像共焦腔","originalKeyword":"自成像共焦腔"},{"id":"5e875fce-5490-48e9-80f3-3da466aff398","keyword":"空间滤波器","originalKeyword":"空间滤波器"}],"language":"zh","publisherId":"lzdzxb201103007","title":"自成像共焦腔一维光纤激光阵列相干合成的实验研究","volume":"28","year":"2011"},{"abstractinfo":"论述了超高
周疲劳研究的背景及意义,总结了近年来超高
周疲劳的研究成果包括超高
周疲劳的典型特征如S-N曲线、裂纹起源、起裂机理、影响超高
周疲劳行为的因素等,介绍了超高
周疲劳的常用实验手段,提出了今后超高
周疲劳研究的课题.","authors":[{"authorName":"关昕","id":"0ac19842-8b56-426f-8905-2388e7a25b47","originalAuthorName":"关昕"},{"authorName":"孟延军","id":"58d24d51-0717-4882-bcd8-6c2afb28dd18","originalAuthorName":"孟延军"}],"doi":"","fpage":"58","id":"e4637bac-c1ab-4be4-843c-0b2fc9d06e80","issue":"1","journal":{"abbrevTitle":"GTYJ","coverImgSrc":"journal/img/cover/GTYJ.jpg","id":"29","issnPpub":"1001-1447","publisherId":"GTYJ","title":"钢铁研究"},"keywords":[{"id":"fc7ed857-e1c0-43de-9636-ad6114993fd8","keyword":"超高
周疲劳","originalKeyword":"超高周疲劳"},{"id":"10ad3e45-0a4e-4eb7-9a69-588ccacf882e","keyword":"S-N曲线","originalKeyword":"S-N曲线"},{"id":"8217367e-ada6-4836-a546-fc39c08018ab","keyword":"疲劳裂纹萌生","originalKeyword":"疲劳裂纹萌生"},{"id":"6ef2ce57-4acd-4632-a6d5-c41726a86dba","keyword":"超声疲劳实验","originalKeyword":"超声疲劳实验"}],"language":"zh","publisherId":"gtyj200901018","title":"超高
周疲劳的研究进展","volume":"37","year":"2009"},{"abstractinfo":"研究了不同温度下TC17合金低
周疲劳性能和断口形貌,确定了不同温度下合金低
周疲劳曲线的数学表达式,分析了合金棒材低
周疲劳断口形貌特征.","authors":[{"authorName":"张翥","id":"08f7ef9f-76b4-43b4-a22c-5e4c97332d9c","originalAuthorName":"张翥"},{"authorName":"惠松骁","id":"95300b8b-74b1-4a44-9a99-d5da348d9ace","originalAuthorName":"惠松骁"},{"authorName":"路纲","id":"b4d1bce2-6620-453b-ab68-5919f79cf6a5","originalAuthorName":"路纲"}],"doi":"10.3321/j.issn:0412-1961.2002.z1.079","fpage":"267","id":"5245b7d9-ad01-42aa-96ae-965e18ec3e68","issue":"z1","journal":{"abbrevTitle":"JSXB","coverImgSrc":"journal/img/cover/JSXB.jpg","id":"48","issnPpub":"0412-1961","publisherId":"JSXB","title":"金属学报"},"keywords":[{"id":"1ab386e7-9137-42ac-932c-aad72f085293","keyword":"低
周疲劳","originalKeyword":"低周疲劳"},{"id":"707dc835-b982-4d1a-8bac-aaf2daa1a891","keyword":"断口形貌","originalKeyword":"断口形貌"},{"id":"84cd2432-b6a6-470a-93bc-ec98a918a3b5","keyword":"TC17钛合金","originalKeyword":"TC17钛合金"}],"language":"zh","publisherId":"jsxb2002z1079","title":"TC17合金低
周疲劳性能与低
周疲劳断口形貌","volume":"38","year":"2002"},{"abstractinfo":"对高
周疲劳和低
周疲劳寿命预测模型进行了研究,提出了一种能够将高
周疲劳和低
周疲劳统一表征的能量形式参量.用统一的能量形式表征参量对高温合金GH141的760℃高
周疲劳和低
周疲劳数据进行处理,得到理想的能量-寿命方程.用1Cr11Ni2W2MoV钢500℃和粉末盘材料FGH95的600℃高温低
周疲劳和高
周疲劳数据对统一表征方法进行验证,验证结果表明,用能量形式的表征参量能够得到理想的能量-寿命方程.","authors":[{"authorName":"许超","id":"b736c564-a712-4cae-ba28-e1f545e3fbee","originalAuthorName":"许超"},{"authorName":"张国栋","id":"1c3a219e-8948-44a2-ac77-d7a1db019a04","originalAuthorName":"张国栋"},{"authorName":"苏彬","id":"115a0fbf-8817-41cd-8719-b1cf173341c4","originalAuthorName":"苏彬"}],"doi":"10.3969/j.issn.1001-4381.2007.08.016","fpage":"65","id":"90ae7451-07db-49d8-bc65-8529908ec2cb","issue":"8","journal":{"abbrevTitle":"CLGC","coverImgSrc":"journal/img/cover/CLGC.jpg","id":"9","issnPpub":"1001-4381","publisherId":"CLGC","title":"材料工程"},"keywords":[{"id":"fa75e230-7af7-47c8-af9d-3a42d6a0957a","keyword":"高
周疲劳","originalKeyword":"高周疲劳"},{"id":"fff773bd-ef31-49d2-a540-5c0587429d8e","keyword":"低
周疲劳","originalKeyword":"低周疲劳"},{"id":"7e70aa0a-f69e-49d8-90a4-c7e78e1e84d8","keyword":"寿命预测","originalKeyword":"寿命预测"},{"id":"120f5885-b123-425d-9772-e00834ea620b","keyword":"能量表征","originalKeyword":"能量表征"},{"id":"2778e939-7c24-4364-bc09-9b7d01d11edf","keyword":"高温合金","originalKeyword":"高温合金"}],"language":"zh","publisherId":"clgc200708016","title":"高
周疲劳和低
周疲劳统一的能量表征方法研究","volume":"","year":"2007"},{"abstractinfo":"分析了金属材料超高
周疲劳断口形貌特征,介绍了基于Paris公式的裂纹扩展寿命预测模型和基于位错理论的疲劳裂纹萌生寿命预测模型,并结合前期有关金属材料超高
周疲劳行为的试验数据,对2种预测模型的误差进行分析.结果表明,基于位错理论的寿命预测模型较为准确;而基于Paris公式的裂纹扩展寿命预测模型,其预测精度随着疲劳寿命的增加而降低,即材料组织缺陷萌生成为疲劳裂纹阶段占据疲劳寿命的绝大部分.在此基础上,提出了超高
周疲劳寿命预测的研究方向:疲劳裂纹的萌生机制,特别是裂纹源表面萌生和内部萌生的竞争性机制;建立大样本数据,结合统计学方法,以工程构件的服役安全性和可靠性为基础,精确评价超高
周疲劳寿命.","authors":[{"authorName":"宋亚南","id":"a3f57d8d-e363-4060-b147-c679dc69b63c","originalAuthorName":"宋亚南"},{"authorName":"徐滨士","id":"420e93bc-bf6e-4637-8f47-a160b0081bae","originalAuthorName":"徐滨士"},{"authorName":"王海斗","id":"1ae8eda4-1c15-49a9-a0ed-b1d1cf5cb8f5","originalAuthorName":"王海斗"},{"authorName":"张玉波","id":"0da25032-c90c-4137-940f-b98b99e26de9","originalAuthorName":"张玉波"},{"authorName":"邢志国","id":"ba8df743-30b2-407a-86a5-99f41317fc27","originalAuthorName":"邢志国"}],"doi":"","fpage":"1203","id":"46f40732-c34d-4b6a-a141-61b1d14d4a90","issue":"5","journal":{"abbrevTitle":"XYJS","coverImgSrc":"journal/img/cover/XYJS.jpg","id":"67","issnPpub":"0258-7076","publisherId":"XYJS","title":"稀有金属"},"keywords":[{"id":"7079c771-b3ea-4858-b4d1-88626ec086d0","keyword":"超高
周疲劳","originalKeyword":"超高周疲劳"},{"id":"b9d90b52-0489-4b16-bee0-245406d58655","keyword":"寿命预测","originalKeyword":"寿命预测"},{"id":"61dc2b24-54c7-4dc5-91cb-2ff12a621d81","keyword":"断口形貌","originalKeyword":"断口形貌"},{"id":"024a9c21-6f1c-4eda-b6ca-94c63c6a8825","keyword":"预测误差","originalKeyword":"预测误差"}],"language":"zh","publisherId":"xyjsclygc201605020","title":"超高
周疲劳寿命预测方法探讨","volume":"45","year":"2016"},{"abstractinfo":"研究了铸造Ti-46.5Al-5Nb(原子分数,%)合金的高
周疲劳行为.结果表明:Ti-46.5Al-5Nb合金具有较好的室温高
周疲劳性能,其疲劳极限σ-1=510 MPa,与合金的断裂强度σb的比值为1.1.试样的形状对Ti-46.5Al-5Nb合金的室温拉伸强度影响较大,由此可以解释合金的疲劳强度与断裂强度的比值大于1.同时,用扫描电镜对合金的高
周疲劳断口进行了观察.","authors":[{"authorName":"崔玉友","id":"6d2f0780-4421-413f-81a5-9a1c8faf287d","originalAuthorName":"崔玉友"},{"authorName":"杨锐","id":"21b4654d-c517-41f1-928b-985f08b14dad","originalAuthorName":"杨锐"}],"doi":"10.3321/j.issn:0412-1961.2002.z1.156","fpage":"497","id":"221aa2f4-ff60-4489-8628-d051a4e9f81f","issue":"z1","journal":{"abbrevTitle":"JSXB","coverImgSrc":"journal/img/cover/JSXB.jpg","id":"48","issnPpub":"0412-1961","publisherId":"JSXB","title":"金属学报"},"keywords":[{"id":"a0ac415a-bf8f-48df-9975-1cc4a8e17e5d","keyword":"Ti-46.5Al-5Nb合金","originalKeyword":"Ti-46.5Al-5Nb合金"},{"id":"da3c909c-c444-4c02-b29a-0fe1dd5bf4d5","keyword":"高
周疲劳","originalKeyword":"高周疲劳"},{"id":"a237702e-9a16-4d44-a4d9-b5aab4e1ae36","keyword":"疲劳强度","originalKeyword":"疲劳强度"}],"language":"zh","publisherId":"jsxb2002z1156","title":"γ-TiAl合金的高
周疲劳行为","volume":"38","year":"2002"},{"abstractinfo":"研究了缺口对TC21合金在不同温度高
周和低
周疲劳强度的影响.疲劳试样为光滑和V型缺口(Kt=3)2种试样,疲劳载荷为应力控制,循环应力比为0.1,高
周疲劳实验温度为315 ℃,低
周疲劳实验温度为室温及400℃.结果表明,在循环应力较低,缺口根部未塑性变形时,缺口使疲劳强度明显降低.循环应力升高使缺口根部产生塑性变形时,缺口对疲劳强度影响降低,当循环应力升高使光滑试样失稳时,缺口试样的疲劳强度高于光滑试样的疲劳强度.断口的SEM分析表明,缺口试样的疲劳裂纹在缺口根部萌生,即使高
周疲劳裂纹源也是多个.","authors":[{"authorName":"虞忠良","id":"abd87fe1-a537-4e20-88b7-1a3c2e7e3b40","originalAuthorName":"虞忠良"},{"authorName":"赵永庆","id":"f78ead44-ed40-4d1d-9204-8b1b6d7081ef","originalAuthorName":"赵永庆"},{"authorName":"
周廉","id":"ba405ddd-36d0-45b7-8983-0df416ab9461","originalAuthorName":"周廉"},{"authorName":"孙军","id":"8297e21f-dcea-438d-a80a-8c632bd1e6e4","originalAuthorName":"孙军"},{"authorName":"曲恒磊","id":"8a66dc34-2d0f-4090-a9a9-670102dd7230","originalAuthorName":"曲恒磊"}],"doi":"","fpage":"1523","id":"7955c589-1b59-47f4-bb9f-7d679859aaf0","issue":"9","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":"4e50aa0a-33ef-4707-9e50-160f353e558d","keyword":"TC21合金","originalKeyword":"TC21合金"},{"id":"a8face36-e694-42c1-b806-a48bce001b58","keyword":"缺口","originalKeyword":"缺口"},{"id":"357af210-c719-4951-a799-b2d1eb8c2244","keyword":"高
周疲劳","originalKeyword":"高周疲劳"},{"id":"d5432717-2565-4501-9190-8b125da0f26e","keyword":"低
周疲劳","originalKeyword":"低周疲劳"}],"language":"zh","publisherId":"xyjsclygc200709004","title":"缺口对TC21合金高
周和低
周疲劳的影响","volume":"36","year":"2007"},{"abstractinfo":"采用超声疲劳试验技术对304不锈钢超高
周疲劳性能进行了研究,并用扫描电镜对疲劳断口进行了分析.结果表明:304不锈钢在105~1010
周次范围内的S-N曲线呈阶梯型下降趋势;在106~108
周次出现平台,平台对应应力幅约为200 MPa;在平台应力以下,108
周次以上超高
周范围304不锈钢仍然发生疲劳断裂,不存在传统意义的疲劳强度;高
周和超高
周断裂试样的裂纹主要从试样表面萌生.","authors":[{"authorName":"张真源","id":"1e495d36-ab34-44b2-a4a5-6580018266bd","originalAuthorName":"张真源"},{"authorName":"王弘","id":"3559134c-d467-400b-9b4b-5cd0522d0fb4","originalAuthorName":"王弘"}],"doi":"10.3969/j.issn.1000-3738.2008.01.023","fpage":"79","id":"90adace5-2f7b-4536-ba84-f44523c00fd6","issue":"1","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":"2cce6bfe-e507-4b4b-8748-bb4dd5c2d2c0","keyword":"超高
周疲劳","originalKeyword":"超高周疲劳"},{"id":"f83ce778-6d3a-4685-8e82-4efce41a6ed9","keyword":"S-N曲线","originalKeyword":"S-N曲线"},{"id":"4070959a-3f57-4ace-89e9-00a024b40430","keyword":"304不锈钢","originalKeyword":"304不锈钢"}],"language":"zh","publisherId":"jxgccl200801023","title":"304不锈钢的超高
周疲劳性能","volume":"32","year":"2008"}],"totalpage":151,"totalrecord":1502}
