{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"Ⅲ-Ⅴ族半导体纳米线材料被认为是高速光电探测器最有前途的材料之一.采用金属有机化学气相沉积法在GaAs(111)B衬底上生长芯-壳结构/GaAs-AlGaAs纳米线材料,GaAs芯材料的生长机制为气相-液相-固相,而AlGaAs壳材料的生长机制为气相-固相.采用场发射扫描电子显微镜和微区光荧光谱仪等测试分析手段研究了AlGaAs壳材料横向、轴向和生长方向的均匀性,探讨了生长机制对均匀性的影响.在此基础上获得了组分均匀的高晶体质量的AlGaAs壳材料,其Al组分为0.14.","authors":[{"authorName":"赵翠俭","id":"99d226ae-a152-4155-b6f4-1699b15c486b","originalAuthorName":"赵翠俭"},{"authorName":"孙素静","id":"eb4f4c29-0767-441b-a1e6-8a3fcaaa11e4","originalAuthorName":"孙素静"}],"doi":"","fpage":"34","id":"a766c90f-4a89-4d8f-b7ef-0893b9a15efb","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":"4a7b77b4-d2ff-48fb-9c88-5d9de50a27d8","keyword":"纳米线","originalKeyword":"纳米线"},{"id":"7825711d-79a3-4e78-970b-d17d85fc483f","keyword":"均匀性","originalKeyword":"均匀性"},{"id":"3bd2321d-9c69-40fa-bafb-d050eebe6d61","keyword":"GaAs-AlGaAs","originalKeyword":"GaAs-AlGaAs"},{"id":"e61215fb-71cd-4059-a612-0699e62a7e4f","keyword":"芯-壳结构","originalKeyword":"芯-壳结构"},{"id":"eb96ea3b-c2f5-4705-b6e4-b3ca9a2dd0d6","keyword":"金属有机化学气相沉积","originalKeyword":"金属有机化学气相沉积"}],"language":"zh","publisherId":"cldb201412010","title":"芯-壳结构/GaAs-AlGaAs纳米线中AlGaAs壳材料均匀性研究","volume":"28","year":"2014"},{"abstractinfo":"马虎沟测区位于灵北断裂带下盘,区内主干断裂为前孙家—洼孙家断裂,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元素异常沿前孙家—洼孙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":"前孙家—洼孙家断裂带","originalKeyword":"前孙家—洼孙家断裂带"}],"language":"zh","publisherId":"huangj201601003","title":"胶西北前孙家—洼孙家断裂带构造地球化学找矿预测","volume":"37","year":"2016"},{"abstractinfo":"较小.同时,本文研究结果与之前对孤立静叶的研究是相互验证的.","authors":[{"authorName":"李雪松","id":"2878f7ea-70c5-4911-bbff-78cc2ceb5b46","originalAuthorName":"李雪松"},{"authorName":"奉凡","id":"0ff63d96-f844-428c-9a97-a657d1ca8213","originalAuthorName":"奉凡"},{"authorName":"顾春伟","id":"8ac13424-142f-474f-ab68-2df68a2e56fa","originalAuthorName":"顾春伟"}],"doi":"","fpage":"953","id":"55c4c093-6a17-4663-8bac-91266f9dbc1e","issue":"6","journal":{"abbrevTitle":"GCRWLXB","coverImgSrc":"journal/img/cover/GCRWLXB.jpg","id":"32","issnPpub":"0253-231X","publisherId":"GCRWLXB","title":"工程热物理学报 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"},"keywords":[{"id":"735392ad-525a-4be6-b179-ec6f4a2b46d3","keyword":"钨合金","originalKeyword":"钨合金"},{"id":"557956c4-38e6-438c-88cb-d5bf17ab913c","keyword":"静液挤压","originalKeyword":"静液挤压"},{"id":"85c751dd-d2ae-46f4-bdf9-0cfe618760ab","keyword":"变形强化","originalKeyword":"变形强化"}],"language":"zh","publisherId":"bqclkxygc200004007","title":"高比重钨合金的静液挤压强化","volume":"23","year":"2000"},{"abstractinfo":"对近期国内外在风机叶片静载荷测试和模态测试方面的研究成果、测试标准和测试机构进行了评述.","authors":[{"authorName":"许晓燕","id":"3bdbdc30-8939-4fc2-8199-1ec1ba80094b","originalAuthorName":"许晓燕"},{"authorName":"颜鸿斌","id":"52ff4f70-26b1-4907-b249-ba583f0a17e2","originalAuthorName":"颜鸿斌"},{"authorName":"李东","id":"852b9b14-221d-4501-9196-76bc31a9afea","originalAuthorName":"李东"},{"authorName":"安明康","id":"528f3132-3b53-47a6-ab90-427a6a2f04ac","originalAuthorName":"安明康"},{"authorName":"蔡建强","id":"51360d80-52cc-4352-9be2-3591316d004a","originalAuthorName":"蔡建强"}],"doi":"10.3969/j.issn.1007-2330.2011.02.011","fpage":"43","id":"fa92d07e-9a1d-4952-8029-3456c77431e5","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":"dbca0bee-43cc-4af7-ba97-ff786c91db06","keyword":"风机叶片","originalKeyword":"风机叶片"},{"id":"f3ede6e1-b107-4631-8353-38d8d5b0f127","keyword":"静载荷测试","originalKeyword":"静载荷测试"},{"id":"a92cb210-c9d3-45e5-8649-bcbe86ec919d","keyword":"模态测试","originalKeyword":"模态测试"}],"language":"zh","publisherId":"yhclgy201102011","title":"风机叶片静载荷和模态测试技术","volume":"41","year":"2011"},{"abstractinfo":"研究了静磁场(0-1.2 T)对32CrMnNbV淬透性及耐蚀性能的影响.实验中发现,在连续冷却过程中加磁场,可以使铁素体转变的CCT曲线左移,淬透性下降;在奥氏体化过程加磁场,会降低奥氏体的稳定性,造成冷却过程中CCT曲线的左移,而且左移的趋势更明显.当淬火时所加磁场的强度增加到1.2 T,马氏体组织明显细化.此外,磁场下淬火可以提高马氏体的耐蚀性,随着外磁场的增加,腐蚀速率下降.","authors":[{"authorName":"区定容","id":"79589175-c233-4593-a7ab-bc45ee90ba88","originalAuthorName":"区定容"},{"authorName":"朱静","id":"dddacbd0-573a-433a-8af2-8bdecd67e713","originalAuthorName":"朱静"},{"authorName":"唐国翌","id":"a4ceb86d-1153-45f1-8e4e-e99076a6c1ac","originalAuthorName":"唐国翌"},{"authorName":"周惠华","id":"d277e4f0-b0bf-4b59-b4b8-ecf98dd3841e","originalAuthorName":"周惠华"}],"doi":"10.3321/j.issn:0412-1961.2000.03.013","fpage":"275","id":"ca4e036f-773b-4592-8c26-05275f337dba","issue":"3","journal":{"abbrevTitle":"JSXB","coverImgSrc":"journal/img/cover/JSXB.jpg","id":"48","issnPpub":"0412-1961","publisherId":"JSXB","title":"金属学报"},"keywords":[{"id":"e1b7c491-6ef4-45a7-b0f6-a2cbd881d084","keyword":"磁场","originalKeyword":"磁场"},{"id":"e22e284f-9dc8-4341-8097-bf09d4b0d784","keyword":"32CrMnNbV","originalKeyword":"32CrMnNbV"},{"id":"eed17151-0112-4b65-9d17-15a238fa6f64","keyword":"CCT曲线","originalKeyword":"CCT曲线"},{"id":"0ae86702-87b7-43ca-b525-53849df676d3","keyword":"淬透性","originalKeyword":"淬透性"},{"id":"2e5867f4-859c-4f10-b858-91072d930928","keyword":"耐蚀性","originalKeyword":"耐蚀性"}],"language":"zh","publisherId":"jsxb200003013","title":"静磁场对32CrMnNbV淬透性及耐蚀性能的影响","volume":"36","year":"2000"},{"abstractinfo":"为查明某烟机静叶固定螺栓的断裂原因,对螺栓的成分、断裂形貌和材料性能等进行了分析.结果表明:螺栓断裂为脆性断裂,螺栓的伸长率、断面收缩率偏低和材料中存在较多的硫元素是螺栓失效的主要原因.建议选择对高温硫化腐蚀不敏感的材料制造螺栓,并优化热加工工艺.","authors":[{"authorName":"王卫泽","id":"5831c77e-4003-4d9a-ad18-648a08155f3b","originalAuthorName":"王卫泽"},{"authorName":"梁佳春","id":"1eee7a76-b86a-4a19-b800-ea2af3a610ab","originalAuthorName":"梁佳春"},{"authorName":"王博","id":"dc1e3f1d-330e-4f48-89bc-827e60463c00","originalAuthorName":"王博"},{"authorName":"轩福贞","id":"a4024c6b-4a3f-4b48-bd95-7dd09ebcac85","originalAuthorName":"轩福贞"}],"doi":"","fpage":"84","id":"f2c6c15c-c11f-46c4-ba38-8f2592254750","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":"1c08e8af-18aa-47ed-89c2-ae7b6e6984ec","keyword":"螺栓","originalKeyword":"螺栓"},{"id":"dc8f0904-79fe-4ad4-9e00-da112ce66626","keyword":"高温合金","originalKeyword":"高温合金"},{"id":"8dcecaba-7a0d-4d2c-815b-e6617772909f","keyword":"失效分析","originalKeyword":"失效分析"}],"language":"zh","publisherId":"jxgccl201004023","title":"烟机静叶固定螺栓的失效分析","volume":"34","year":"2010"},{"abstractinfo":"综述了热静液挤压技术在烧结态粉末冶金难变形材料挤压成形与粉末体高致密化固结方面的研究进展。简述了热静液挤压工艺原理、工艺特点与适用范围,分析了热静液挤压润滑层形成的影响因素,介绍了热静液挤压润滑介质研制和热静液挤压技术在粉末冶金高比重钨合金、γ-TiAl基合金材料的挤压成形以及纳米晶铝合金、弥散强化铜合金、NdFeB永磁合金等金属粉末体材料的高致密化固结成形方面的应用,指出了热静液挤压工艺的技术优势与发展前景。","authors":[{"authorName":"胡连喜","id":"24c80c42-03cf-4289-9fa4-3fed3278afa5","originalAuthorName":"胡连喜"},{"authorName":"王尔德","id":"c90a4828-75a2-44ff-882d-af3194fa88bd","originalAuthorName":"王尔德"}],"doi":"","fpage":"48","id":"9ea05815-b3e0-4b4c-b0f7-d2a66cafb368","issue":"7","journal":{"abbrevTitle":"ZGCLJZ","coverImgSrc":"journal/img/cover/中国材料进展.jpg","id":"80","issnPpub":"1674-3962","publisherId":"ZGCLJZ","title":"中国材料进展"},"keywords":[{"id":"845fcb2e-6ced-4542-885b-1011d8599fa3","keyword":"高比重钨合金","originalKeyword":"高比重钨合金"},{"id":"847accd5-606b-4c8d-bf3e-e02f42d48315","keyword":"γ-TiAl基合金","originalKeyword":"γ-TiAl基合金"},{"id":"1febf789-7fa6-4636-9d6d-dbb9242f1026","keyword":"金属纳米晶材料","originalKeyword":"金属纳米晶材料"},{"id":"477e7ba1-dd7e-4ca2-9751-8fca7da4fdea","keyword":"热静液挤压","originalKeyword":"热静液挤压"},{"id":"2e0ca09d-53b4-49f9-9b85-05759df625c0","keyword":"组织性能","originalKeyword":"组织性能"}],"language":"zh","publisherId":"zgcljz201107011","title":"粉末冶金难变形材料热静液挤压技术进展","volume":"30","year":"2011"},{"abstractinfo":"系统研究了Si3N4陶瓷在空气、水、煤油3种介质中的静疲劳及循环疲劳特性.结果发现,在不同介质条件下,循环疲劳的应力腐蚀指数(n)相差不大,且远远低于相同介质条件下静疲劳的应力腐蚀指数.经分析发现,循环载荷部分或全部消除了显微组织屏蔽作用,对材料造成附加损伤,导致其疲劳寿命远远低于静疲劳寿命.","authors":[{"authorName":"王红洁","id":"68a848a9-4710-48a5-b8f1-017ec3bf05a3","originalAuthorName":"王红洁"},{"authorName":"王永兰","id":"c5a51629-a969-4f5f-94a8-b8c8ca01d3b2","originalAuthorName":"王永兰"},{"authorName":"金志浩","id":"d60c82f8-5b2b-42de-a8fb-57a3cb5fadb2","originalAuthorName":"金志浩"}],"doi":"","fpage":"639","id":"2269fc0c-e98b-4a8a-b09d-f53180d0d5ff","issue":"8","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":"cc5bc873-0f20-4032-bf3b-31d67f9326e3","keyword":"静疲劳","originalKeyword":"静疲劳"},{"id":"6d068bb6-99b8-4265-8ace-ae08abbbd984","keyword":"循环疲劳","originalKeyword":"循环疲劳"},{"id":"b14b6b4b-dcfa-45ab-a206-7f7a294f79c7","keyword":"环境介质","originalKeyword":"环境介质"},{"id":"f21c1b8e-ecff-4f12-93c8-9b316470ebb7","keyword":"Si3N4陶瓷","originalKeyword":"Si3N4陶瓷"}],"language":"zh","publisherId":"xyjsclygc200308015","title":"不同介质中Si3N4陶瓷的静疲劳与循环疲劳","volume":"32","year":"2003"},{"abstractinfo":"本文采用经过实验校核的数值模拟方法研究了采用正弯静叶的低速压气机内部流动结构.结果表明,由于受叶片径向力和增强的叶根泄漏流动的作用,正弯静叶流道内的旋涡结构较直静叶明显简化,但考虑到叶片本身的几何形状及叶片表面受力的影响,流道出口后的气流掺混较为严重,奇点总数略有增加,旋涡结构相对复杂.","authors":[{"authorName":"陆华伟","id":"8d42ff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