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min去应力退火处理后,合金的塑性增强.","authors":[{"authorName":"张振波","id":"64e3a59d-1c17-44b1-b3c7-006edceda8a6","originalAuthorName":"张振波"},{"authorName":"李述军","id":"3025b437-b87e-4672-b95e-f669c0f4f839","originalAuthorName":"李述军"},{"authorName":"郝玉琳","id":"e2027658-5a93-4918-acf0-4fab63ba7156","originalAuthorName":"郝玉琳"},{"authorName":"杨锐","id":"3272e835-4ee7-47f7-967b-6bf817db3155","originalAuthorName":"杨锐"},{"authorName":"郭正晓","id":"eba017bd-ac1a-4235-9964-1f1be25f3f45","originalAuthorName":"郭正晓"}],"doi":"","fpage":"123","id":"4f609cc3-db1e-40c7-9674-454133daadb8","issue":"z1","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":"b83dd9d3-f839-4062-b7cf-5f80934b2431","keyword":"Ti-24Nb-4Zr-8Sn","originalKeyword":"Ti-24Nb-4Zr-8Sn"},{"id":"1581724a-7653-42eb-aab7-d30eb085d5c2","keyword":"中温旋锻","originalKeyword":"中温旋锻"},{"id":"36b0b21a-e08f-453a-82ff-cec3b17a40c3","keyword":"织构","originalKeyword":"织构"},{"id":"ea761a30-51ea-4c5f-a7b9-1ba1063baa80","keyword":"平面应变","originalKeyword":"平面应变"}],"language":"zh","publisherId":"zgysjsxb2010z1029","title":"中温旋锻变形Ti2448合金的显微组织及力学性能","volume":"20","year":"2010"},{"abstractinfo":"根据镁合金中主要合金元素的种类、作用以及合金组织、性能主特征,分析归纳了含锆镁合金的主要合金体系, 重点综述了Mg-Zr、Mg-Zn-Zr、Mg-RE-Zr和 Mg-Th-Zr等合金系中合金相的种类和形成规律,分析讨论了合金相的研究现状和对若干性能的影响.","authors":[{"authorName":"张静","id":"acfdab16-228c-4e59-9bd4-2f84fdf50b02","originalAuthorName":"张静"},{"authorName":"潘复生","id":"2c6dd2c4-0f4e-430f-b3e4-aea263e22f85","originalAuthorName":"潘复生"},{"authorName":"郭正晓","id":"47155ad2-ee8a-42d8-aed2-170cabb7ef8a","originalAuthorName":"郭正晓"},{"authorName":"丁培道","id":"f88fc4aa-acb7-4ebd-90df-e217fc61f188","originalAuthorName":"丁培道"},{"authorName":"汪凌云","id":"1009fc52-c513-408e-aac3-04d7bb1827a5","originalAuthorName":"汪凌云"}],"doi":"10.3969/j.issn.1004-244X.2002.06.015","fpage":"50","id":"87df38cb-24b5-465b-86aa-4b901333da71","issue":"6","journal":{"abbrevTitle":"BQCLKXYGC","coverImgSrc":"journal/img/cover/BQCLKXYGC.jpg","id":"4","issnPpub":"1004-244X","publisherId":"BQCLKXYGC","title":"兵器材料科学与工程 "},"keywords":[{"id":"b20b537f-fd1c-4d43-b7fc-0116e8c02602","keyword":"镁合金","originalKeyword":"镁合金"},{"id":"2490ff56-7743-4308-812b-81c29d553dc9","keyword":"相图","originalKeyword":"相图"},{"id":"934a7afc-0cd9-40c5-a80c-e7a7234f5bd4","keyword":"化合物","originalKeyword":"化合物"},{"id":"3c474655-71bf-49d4-81ef-10508c17c812","keyword":"合金元素","originalKeyword":"合金元素"},{"id":"894f6c26-a72c-4f4c-9d84-583111c9f24b","keyword":"组织","originalKeyword":"组织"}],"language":"zh","publisherId":"bqclkxygc200206015","title":"含锆镁合金系中的合金相","volume":"25","year":"2002"},{"abstractinfo":"将轧制成形与真空烧结相结合制备出大块多孔Ti-24Nb-4Zr-8Sn(%,质量分数,简称Ti2448)材料,研究了冷轧形变量(20%-40%)和烧结温度(1100-1300℃)对其孔隙率,平均孔径、压缩强度及杨氏模量的影响.结果表明,在烧结温度相同的情况下,随着冷轧形变量的增加,多孔Ti2448合金的孔隙率和平均孔径均减小,压缩强度和弹性模量线性增加.烧结温度对多孔材料孔隙率及孔径的影响不大.在孔隙率相同的情况下,多孔Ti2448合金的压缩强度和模量比明显优于纯钛多孔材料.","authors":[{"authorName":"王玺涵","id":"8d4c0627-e67e-4bc2-b0bd-4fbf91c187e4","originalAuthorName":"王玺涵"},{"authorName":"李述军","id":"09e9a542-70fb-494f-b8b1-e936790ad8da","originalAuthorName":"李述军"},{"authorName":"贾明途","id":"9f7d8700-0796-4127-8ced-4e3b29065186","originalAuthorName":"贾明途"},{"authorName":"郝玉琳","id":"04b6b4ea-9cbb-49b4-a353-864613500a44","originalAuthorName":"郝玉琳"},{"authorName":"杨锐","id":"642aa126-d4b4-4029-b30c-c91ba0934c80","originalAuthorName":"杨锐"},{"authorName":"郭正晓","id":"5b3f71a5-4191-4843-b38c-d5a04cf9ef86","originalAuthorName":"郭正晓"}],"doi":"","fpage":"378","id":"d34963df-fd0c-4e88-8ced-cdbfaaf2ea9e","issue":"4","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":"27a2ef49-4fed-4dd1-bc5b-52c32253b008","keyword":"金属材料","originalKeyword":"金属材料"},{"id":"2ce6df28-4878-4cd3-b590-bda6ed0bbdbc","keyword":"多孔Ti-24Nb-4Zr-8Sn","originalKeyword":"多孔Ti-24Nb-4Zr-8Sn"},{"id":"8aa8665f-6a1f-4c04-bc39-6841d0c3f594","keyword":"轧制成形","originalKeyword":"轧制成形"},{"id":"531eef09-fe94-4847-9b03-578ad857d88f","keyword":"弹性模量","originalKeyword":"弹性模量"},{"id":"e1cd9685-0011-4f91-b568-3d4ba1535fc6","keyword":"力学性能","originalKeyword":"力学性能"}],"language":"zh","publisherId":"clyjxb201004009","title":"多孔医用Ti-24Nb-4Zr-8Sn合金的制备和力学性能","volume":"24","year":"2010"},{"abstractinfo":"采用第一性原理的离散变分原子簇方法计算了α-Ti+间隙原子体系的电子结构、总能及结合能.研究了结合能随单胞体积的变化规律,依据此规律研究了间隙原子对α-Ti体积模量和理论强度的影响.计算结果显示结合能随间隙原子B,C,N及O的固溶而降低,但随H原子的固溶而增加.C,N及O增加体积模量和理论强度,而H和B则降低体积模量和理论强度.","authors":[{"authorName":"宋岩","id":"88b09a8c-533f-42d1-a038-de209215c0c0","originalAuthorName":"宋岩"},{"authorName":"郭正晓","id":"3c29e3d0-6620-4ace-b7d2-20ea18282dd0","originalAuthorName":"郭正晓"},{"authorName":"杨锐","id":"3ce3b53c-581f-474b-883c-1b6e67daf9c4","originalAuthorName":"杨锐"},{"authorName":"李东","id":"af5219f3-aea0-4337-a5a5-1a1b8f334412","originalAuthorName":"李东"}],"doi":"10.3321/j.issn:0412-1961.2002.z1.176","fpage":"557","id":"69080010-6b9d-45b0-95eb-830a8c46e754","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":"6ed51218-60f5-4b01-9d96-5b19dc562fb7","keyword":"第一性原理理论","originalKeyword":"第一性原理理论"},{"id":"341af897-a1ad-40c7-885a-3b9fc4825c6b","keyword":"α-Ti","originalKeyword":"α-Ti"},{"id":"6409952a-8e0f-41b1-92d3-b23132f46a22","keyword":"力学性质","originalKeyword":"力学性质"},{"id":"81b29f53-8369-44b5-a95e-bfbae136922c","keyword":"间隙原子","originalKeyword":"间隙原子"}],"language":"zh","publisherId":"jsxb2002z1176","title":"间隙原子对α-Ti理论强度和体积模量影响的第一性原理理论研究","volume":"38","year":"2002"},{"abstractinfo":"本刊2012年第五期第801页刊登了熊晓英等作者的论文,这是本刊编辑部自创刊以来收到的第一篇这样的论文,该文对本刊在材料科学期刊中所处的地位及面临问题、发展方向作出如此客观、中肯的评价与指引,均使编辑部成员十分感动。今年恰是本刊创刊30周年纪念,谨以此《编后记》供奉广大读者,","authors":[{"authorName":"无","id":"6eb4c714-a474-4cd0-b393-f0306b138318","originalAuthorName":"无"}],"doi":"","fpage":"714","id":"70565a37-1b6d-4b46-9b09-eb71030a22e8","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":"b4b988f9-967f-4530-817f-d29f1623cfa2","keyword":"科学评价","originalKeyword":"科学评价"},{"id":"614f8cc5-6336-4065-b303-26b67f81d1be","keyword":"论文","originalKeyword":"论文"},{"id":"bf3cdaa0-4927-4d1a-a122-779ead854c34","keyword":"作者","originalKeyword":"作者"},{"id":"54d5797b-6f47-4f76-9527-3b32105f0299","keyword":"务实","originalKeyword":"务实"},{"id":"2124d564-90da-4a58-85da-22654e0d5dd2","keyword":"科学期刊","originalKeyword":"科学期刊"},{"id":"1dee1687-be42-4d28-aed7-6cd29a5c6883","keyword":"编辑部","originalKeyword":"编辑部"},{"id":"b28e651a-8495-4eba-87c6-79d47b81d924","keyword":"创刊","originalKeyword":"创刊"}],"language":"zh","publisherId":"clkxygc201205014","title":"科学评价,务实求真——熊晓英等作者的论文编后记","volume":"30","year":"2012"},{"abstractinfo":"内蒙古锡林郭勒盟东部金属成矿带是中国重要的黑色金属、有色金属、贵金属成矿带,成矿带岩浆活动频繁,构造活动强烈,具备有利的成矿条件.通过对2个成矿带(东乌旗成矿带、西乌旗成矿带)的地质背景及成矿条件的研究,将东乌旗成矿带分为4个成矿亚带,西鸟旗成矿带分为2个成矿亚带,为下一步的地质找矿工作提供依据.","authors":[{"authorName":"杜继旭","id":"fd584c9e-5605-4769-b01e-db0a7c05ac10","originalAuthorName":"杜继旭"},{"au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"},"keywords":[{"id":"b8145eed-f9af-4296-a2a8-78081c2f117c","keyword":"正渗透","originalKeyword":"正渗透"},{"id":"a982e8b5-f58c-497f-8c8f-9a398d806a16","keyword":"渗透压","originalKeyword":"渗透压"},{"id":"f2ba5e64-b892-4b89-8447-5ff07677a854","keyword":"机理","originalKeyword":"机理"},{"id":"83082b58-1ff1-46c9-9d55-1e28d48de719","keyword":"膜","originalKeyword":"膜"}],"language":"zh","publisherId":"mkxyjs201106020","title":"正渗透的机理","volume":"31","year":"2011"},{"abstractinfo":"本文综述了作者所在研究集体所进行的正逆耦合循环研究.通过对串联型、并联型正逆耦合循环的相关研究和(火用)平衡比较分析,归纳提出了正逆耦合循环系统集成原则,即:正、逆循环采用同种工质;物流、能流耦合并重;优化配置热源加热过程;调控氨水工质浓度;回收利用系统内能.遵循该原则提出的变浓度氨水工质正逆耦合循环体现了优良的性能.","authors":[{"authorName":"刘猛","id":"343bc3a7-10a4-4fbb-a238-b52f64a9815e","originalAuthorName":"刘猛"},{"authorName":"张娜","id":"ecfc96ab-e8fa-4a2c-a55e-d6ecc77b31c2","originalAuthorName":"张娜"},{"authorName":"罗尘丁","id":"dce2be01-b18f-4577-a465-2d23aea270d7","originalAuthorName":"罗尘丁"}],"doi":"","fpage":"1981","id":"98b16b43-a750-4666-8688-695c6cf11385","issue":"12","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":"bf2c7449-1574-4e78-b1cf-53ea5bf5f5b7","keyword":"正逆耦合循环","originalKeyword":"正逆耦合循环"},{"id":"c75d5df9-170f-412f-b306-d1cdbc49b9d5","keyword":"研究进展","originalKeyword":"研究进展"},{"id":"516d5302-314a-4549-a985-aec3d848dfa4","keyword":"系统集成原则","originalKeyword":"系统集成原则"},{"id":"e1a3d7b9-a5c5-4f66-ac79-fe3511e95214","keyword":"氨水工质","originalKeyword":"氨水工质"}],"language":"zh","publisherId":"gcrwlxb200912001","title":"正逆耦合循环研究进展","volume":"30","year":"2009"},{"abstractinfo":"根据电化学原理, 得到高阻值衬层穿透性裂纹的电沉积电流与时间的关系曲线, 利用计算机数据采集及处理系统, 对高阻值衬层进行分析与检测, 由此可以定量确定裂纹的大小, 再通过观测在裂纹处所沉积的金属(或采用电极扫描技术)来确定裂纹的位置及表面形状, 最终可以实现对高阻值衬层的快速无损探伤.","authors":[{"authorName":"郭志猛","id":"a59895a1-e4a8-4a35-a331-9748f7c5978a","originalAuthorName":"郭志猛"},{"authorName":"庄奋强","id":"d8cd23d4-33dd-4328-a00d-72b9a514f2fb","originalAuthorName":"庄奋强"},{"authorName":"林涛","id":"b5f727f0-0703-4ff1-b13c-2745dba602f5","originalAuthorName":"林涛"},{"authorName":"吴峰松","id":"ba35ec5c-8dad-4a09-b74d-d7b0570a72b3","originalAuthorName":"吴峰松"},{"authorName":"殷声","id":"646d55f6-70b4-4352-88ac-c1e271dba40a","originalAuthorName":"殷声"}],"categoryName":"|","doi":"","fpage":"124","id":"e5e5e0ed-8166-4f8a-b28e-d665b6d67a6f","issue":"2","journal":{"abbrevTitle":"JSXB","coverImgSrc":"journal/img/cover/JSXB.jpg","id":"48","issnPpub":"0412-1961","publisherId":"JSXB","title":"金属学报"},"keywords":[{"id":"65638d24-a49c-4c62-bf5d-fc361122209b","keyword":"高阻值衬层","originalKeyword":"高阻值衬层"},{"id":"48e71879-91d1-4f48-953e-71210906e540","keyword":"null","originalKeyword":"null"},{"id":"7b4996f6-ca76-4816-9879-97c3dd341e49","keyword":"null","originalKeyword":"null"},{"id":"4e24337c-4431-4601-96bf-b869291af036","keyword":"null","originalKeyword":"null"}],"language":"zh","publisherId":"0412-1961_1999_2_20","title":"郭志猛 庄奋强","volume":"35","year":"1999"},{"abstractinfo":"对Dirac粒子引进了正-反粒子自由度和相应的内部τ空间的算子, 把γ矩阵分解成自旋σ算子和正-反粒子τ算子; Dirac方程的解出现了正-反粒子量子数; 正-反粒子变换是Dirac粒子的哈密顿量的反对称变换, Dirac粒子负能态能量的负值来自正-反粒子量子数的负值; γ矩阵这种分解是处理物理相互作用的需要.","authors":[{"authorName":"王顺金","id":"b047f010-780f-4c4c-8ad4-804be0f4c1a6","originalAuthorName":"王顺金"},{"authorName":"周善贵","id":"34a867fd-b1ca-4a79-9cb3-40c301a0e99b","originalAuthorName":"周善贵"},{"authorName":"H.C.Pauli","id":"3db29fe8-7400-4e3b-86d1-7f09179b551a","originalAuthorName":"H.C.Pauli"}],"doi":"10.3969/j.issn.1007-4627.2004.04.008","fpage":"294","id":"80b30226-9b34-455a-b2a9-38a83706ef28","issue":"4","journal":{"abbrevTitle":"YZHWLPL","coverImgSrc":"journal/img/cover/YZHWLPL.jpg","id":"78","issnPpub":"1007-4627","publisherId":"YZHWLPL","title":"原子核物理评论 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