{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"采用热力模拟平面压缩实验电子背散射衍射(EBSD)组织分析测试方法,研究了新型A1-Zn-Mg-Cu高强铝合金热压缩变形以及退火微观组织.结果表明,在变形温度为350℃,应变速率为0.1 sJ的条件下,合金微观组织演变机理为动态回复大应变几何动态再结晶,出现旋转立方{001}<110>黄铜{111}<110>,分别沿着α-取向线β-取向线分布;退火后旋转立方减少,黄铜增多,旋转立方沿着α-取向线向黄铜转变.在变形温度为420℃,应变速率为0.1 s1的条件下,合金变形组织较均匀,再结晶晶粒分布在变形剧烈的晶界或三角晶界处,出现的种类主要有旋转立方{110}<110>、黄铜型{011}<211>;退火过程中发生亚动态再结晶,旋转立方强度增强,黄铜型{011}<211>有向高斯方向移动的趋势.","authors":[{"authorName":"路瑞龙","id":"24602279-9d9d-4eef-84a3-67b089c62925","originalAuthorName":"路瑞龙"},{"authorName":"赵晓东","id":"6683b41a-cf3c-4e5c-b24b-75c5b816c962","originalAuthorName":"赵晓东"},{"authorName":"林金保","id":"6383438d-ef2f-4280-b29e-1f8812d5cca5","originalAuthorName":"林金保"},{"authorName":"陈慧琴","id":"f461d000-3732-4365-af94-77d0875ce1e2","originalAuthorName":"陈慧琴"}],"doi":"","fpage":"3094","id":"0bc1f2e4-07a8-4010-aa12-81769eb7887d","issue":"12","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":"b230072d-f0fa-4da0-be6e-12f5cb4bd3e4","keyword":"Al-Zn-Mg-Cu高强铝合金","originalKeyword":"Al-Zn-Mg-Cu高强铝合金"},{"id":"e48d9fa9-5cf8-48e4-ad59-901d56bf3964","keyword":"高温平面压缩","originalKeyword":"高温平面压缩"},{"id":"8934ee1f-0acd-4048-8082-2255647002d3","keyword":"退火","originalKeyword":"退火"},{"id":"dd205af9-37b6-495a-ae71-7c49fff32948","keyword":"回复再结晶","originalKeyword":"回复和再结晶"},{"id":"ad5c9609-8e88-4373-b3b5-837803f388f4","keyword":"微观组织","originalKeyword":"微观组织和织构"}],"language":"zh","publisherId":"xyjsclygc201512033","title":"新型高强铝合金高温平面压缩与退火微观组织","volume":"44","year":"2015"},{"abstractinfo":"采用X射线衍射仪(XRD),通过测量不同{hkl}晶面的衍射强度判断钼板表面法向的取向分布,研究了热轧纯钼板不同变形量轧制方式下的微观组织演变.结果表明:单向轧制,晶粒取向呈现出一定的方向性;随着变形量的增加,晶粒变形程度增加,大晶粒破碎,晶粒尺寸变小,晶粒取向愈加明显.交叉轧制,平行于轧制方向上的晶粒沿轧制方向被压缩伸长,呈层状分布,表现出面的特征性;垂直轧向的晶粒交错搭接,方向性减弱.单向轧制使{111}得到强化,导致板材各向异性趋于明显.交叉轧制可削弱单向轧制过程中产生的{111},有利于降低钼板材的各向异性;同时,随着轧制变形量的增加,有利于{100}的形成强化,当变形量达90%以上时,{100} 最强.","authors":[{"authorName":"李继文","id":"de863ae2-73e1-45ca-92d1-88d578e17167","originalAuthorName":"李继文"},{"authorName":"杨松涛","id":"65eb8b4f-4d6b-4ad4-bee5-71eac1af9e15","originalAuthorName":"杨松涛"},{"authorName":"魏世忠","id":"b2d357f6-7ae8-4e59-9d88-b9cb01b7f50c","originalAuthorName":"魏世忠"},{"authorName":"张国赏","id":"a6d50f33-466c-40ff-8281-539b31ddaf14","originalAuthorName":"张国赏"},{"authorName":"徐流杰","id":"4e620bd6-0c0a-4319-aec3-f2dc8c3a43f0","originalAuthorName":"徐流杰"}],"doi":"10.13373/j.cnki.cjrm.2014.03.002","fpage":"348","id":"6831cc0b-4166-4241-9276-ad5a304bd28c","issue":"3","journal":{"abbrevTitle":"XYJS","coverImgSrc":"journal/img/cover/XYJS.jpg","id":"67","issnPpub":"0258-7076","publisherId":"XYJS","title":"稀有金属"},"keywords":[{"id":"80183d5e-8afe-462d-8dec-e5fe91b0e212","keyword":"纯钼板","originalKeyword":"纯钼板"},{"id":"30a3259f-91bf-4b54-b60c-ad2e0c3ca23d","keyword":"轧制方式","originalKeyword":"轧制方式"},{"id":"52c91bb6-351f-4907-9d0a-d2b639fef6ff","keyword":"变形量","originalKeyword":"变形量"},{"id":"553ae421-2e24-4aa5-8e00-c069306e5ac0","keyword":"显微组织","originalKeyword":"显微组织"},{"id":"5091027f-82a2-4c61-857c-f46a98634f48","keyword":"","originalKeyword":"织构"}],"language":"zh","publisherId":"xyjs201403002","title":"轧制方式变形量对纯钼板坯微观组织的影响","volume":"38","year":"2014"},{"abstractinfo":"对AZ21镁合金进行了降温多向压缩变形,利用OM及SEM/EBSD技术观察分析了其显微组织微观的演化.结果表明,随着变形道次的增加,晶粒尺寸迅速减小,经4道次的变形晶粒可细化至0.8 μm.高温变形时生成的相互交叉的扭折带可将原始晶粒有效地分割而细化.673 K第1道次变形至ε=1.2时,几乎所有的晶粒都发生了90°的转动,基面由变形前平行于压缩方向转至与压缩方向垂直,基面强度先减小后增大;第2道次变形时,变化与第1道次基本一样,表现为与变形温度无关,仅取决于变形程度.第2道次变形后强度低于第1道次,变形道次的增加可以弱化.","authors":[{"authorName":"杨续跃","id":"ba518358-6915-442b-a56f-0e8da17ec9b5","originalAuthorName":"杨续跃"},{"authorName":"孙欢","id":"85dfdec3-8012-47b3-87cc-048dae20d32c","originalAuthorName":"孙欢"},{"authorName":"吴新星","id":"3d9f2cdb-c08c-4435-8406-e3677b3eb817","originalAuthorName":"吴新星"},{"authorName":"马继军","id":"49428ac2-660b-4b8a-95b0-c1612e35c75c","originalAuthorName":"马继军"},{"authorName":"秦佳","id":"228515d6-f9c8-4d18-b810-b67f289ba6d1","originalAuthorName":"秦佳"},{"authorName":"霍庆欢","id":"23e6143e-2ba1-4ac9-a282-0cfbf93a7d86","originalAuthorName":"霍庆欢"}],"doi":"10.3724/SP.J.1037.2011.00755","fpage":"129","id":"8a9f14d9-1517-48a9-9a5c-7454f11b1517","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":"bcf76648-9316-4fe3-a9c0-63ff64da555a","keyword":"镁合金","originalKeyword":"镁合金"},{"id":"6bfb72f4-d904-4e21-8d52-1e2e88044681","keyword":"降温多向压缩","originalKeyword":"降温多向压缩"},{"id":"a922e96c-17a6-4421-a9f9-c01fd04b6047","keyword":"晶粒细化","originalKeyword":"晶粒细化"},{"id":"6c6248db-7c92-48c2-bd5b-9359fbb2e6aa","keyword":"扭折带","originalKeyword":"扭折带"},{"id":"35d287a1-2d50-4765-be0e-fc1dc86bfc7b","keyword":"微观演化","originalKeyword":"微观织构演化"}],"language":"zh","publisherId":"jsxb201202001","title":"AZ21镁合金降温多向压缩过程中的组织微观演化","volume":"48","year":"2012"},{"abstractinfo":"采用扫描电镜、透射电镜电子背散射衍射技术,研究了不锈钢上厚度约2.2 mm的电铸铜层的微观组织、晶粒取向晶界特征.实验表明,其组织主要由柱状晶构成,靠近基体50~100 μm处的铸层由细小等轴晶细小柱状晶构成.对于所有晶区,小角度晶界(<15°)的分布频率较小,大角度(>15°)晶界为电铸铜组织的主要晶界,在大角度晶界中,CSL晶界占有很大比例,其中∑3的分布频率较大.柱状晶由平行分布的层状孪晶构成,近似垂直于柱状晶长轴,层间孪晶界为∑3类型.铸层存在较显著的铜型,即<111>择优取向,并且随铸层厚度的增加而加强.","authors":[{"authorName":"关丽雅","id":"f62043b5-5e2c-4862-a1bf-5018343ae261","originalAuthorName":"关丽雅"},{"authorName":"郑秀华","id":"4cb8da65-09be-4ac0-8f21-0c7bc70c1d70","originalAuthorName":"郑秀华"},{"authorName":"王富耻","id":"f51a089d-a44d-421c-b437-75f7b6c23f55","originalAuthorName":"王富耻"},{"authorName":"李树奎","id":"9f9cbca6-e222-4b7a-9b23-a906f9ac63c3","originalAuthorName":"李树奎"},{"authorName":"吕广庶","id":"4b2bef80-3ab2-43dc-8b92-c792efd7e1a6","originalAuthorName":"吕广庶"}],"doi":"","fpage":"21","id":"9baf7f96-ff14-4ecd-bdac-76cb3997e6f7","issue":"8","journal":{"abbrevTitle":"DDYTS","coverImgSrc":"journal/img/cover/DDYTS.jpg","id":"21","issnPpub":"1004-227X","publisherId":"DDYTS","title":"电镀与涂饰 "},"keywords":[{"id":"0f993617-87ed-4696-b7aa-fa3cfc17c752","keyword":"铜","originalKeyword":"铜"},{"id":"23aa885e-edcc-41ff-a0d9-649940c7a136","keyword":"电铸","originalKeyword":"电铸"},{"id":"193909d4-278c-4f83-acac-66a1047f5237","keyword":"择优取向","originalKeyword":"择优取向"},{"id":"e250f682-ca09-4289-b916-f4ec3a40943a","keyword":"微观结构","originalKeyword":"微观结构"},{"id":"80a56342-094b-4593-881e-81c0dc56d411","keyword":"晶界特征分布","originalKeyword":"晶界特征分布"},{"id":"51f2a57f-08b0-42fa-be80-cb8862b7ff5c","keyword":"电子背散射衍射","originalKeyword":"电子背散射衍射"}],"language":"zh","publisherId":"ddyts200908006","title":"电铸铜微观组织的研究","volume":"28","year":"2009"},{"abstractinfo":"对AZ31镁合金热轧板在350 ℃进行了累积叠轧焊(ARB)变形,采用EBSD技术研究了AZ31镁合金的微观组织演变.结果表明, ARB可以显著细化AZ31镁合金的晶粒组织,经过3道次变形后平均晶粒尺寸为2.18 μm,后续的ARB变形使AZ31镁合金的微观组织更均匀,但晶粒不会再显著细化, 说明存在临界ARB变形道次,使晶粒细化晶粒长大之间达到动态平衡. AZ31镁合金在ARB 变形过程中的晶粒细化机制为连续动态再结晶, 尤其还观察到了旋转动态再结晶.动态再结晶的形变储存能来源于多道次累积的剧烈应变沿厚度方向分布复杂的剪切变形. ARB变形过程中旋转动态再结晶剪切变形使新晶粒c轴发生旋转, 导致基面弱化.","authors":[{"authorName":"詹美燕","id":"197493f2-3933-476c-a2cf-6600f0ab3718","originalAuthorName":"詹美燕"},{"authorName":"李春明","id":"f0da4ba3-2486-448a-a55c-28d13313fdc5","originalAuthorName":"李春明"},{"authorName":"张卫文","id":"f356453d-538a-4bf1-8510-3ce47699eea2","originalAuthorName":"张卫文"}],"categoryName":"|","doi":"10.3724/SP.J.1037.2011.00655","fpage":"709","id":"98105d09-395a-4adc-961a-40c3f2224821","issue":"6","journal":{"abbrevTitle":"JSXB","coverImgSrc":"journal/img/cover/JSXB.jpg","id":"48","issnPpub":"0412-1961","publisherId":"JSXB","title":"金属学报"},"keywords":[{"id":"295a98b5-9d3c-438c-857c-a48998b50868","keyword":"Mg-Al-Zn合金","originalKeyword":"Mg-Al-Zn合金"},{"id":"8c144269-f89c-469a-9edc-793e082d1a27","keyword":"accumulative roll-bonding (ARB)","originalKeyword":"accumulative roll-bonding (ARB)"},{"id":"5d1dc024-de99-4abd-9a8d-c96b49a2dd49","keyword":"microstructure","originalKeyword":"microstructure"},{"id":"4e44840e-1535-4572-84d4-a9b4dc13a118","keyword":"texture","originalKeyword":"texture"}],"language":"zh","publisherId":"0412-1961_2012_6_8","title":"累积叠轧焊AZ31镁合金微观组织演变的EBSD研究","volume":"48","year":"2012"},{"abstractinfo":"对AZ31镁合金热轧板在350℃进行了累积叠轧焊(ARB)变形,采用EBSD技术研究了AZ31镁合金的微观组织演变.结果表明,ARB可以显著细化AZ31镁合金的晶粒组织,经过3道次变形后平均晶粒尺寸为2.18um,后续的ARB变形使AZ31镁合金的微观组织更均匀,但晶粒不会再显著细化,说明存在临界ARB变形道次,使晶粒细化晶粒长大之间达到动态平衡.AZ31镁合金在ARB变形过程中的晶粒细化机制为连续动态再结晶,尤其还观察到了旋转动态再结晶.动态再结晶的形变储存能来源于多道次累积的剧烈应变沿厚度方向分布复杂的剪切变形.ARB变形过程中旋转动态再结晶剪切变形使新晶粒c轴发生旋转,导致基面弱化.","authors":[{"authorName":"詹美燕","id":"a11b1079-f7ce-417a-9426-cdba582e1ec9","originalAuthorName":"詹美燕"},{"authorName":"李春明","id":"2d21b0dd-159d-4119-8889-105483021e99","originalAuthorName":"李春明"},{"authorName":"张卫文","id":"04a34d74-3bdc-456d-8a69-c88254ed7241","originalAuthorName":"张卫文"}],"doi":"10.3724/SP.J.1037.2011.00655","fpage":"709","id":"6dfe616f-49a2-427f-809b-7d4dd624c1b5","issue":"6","journal":{"abbrevTitle":"JSXB","coverImgSrc":"journal/img/cover/JSXB.jpg","id":"48","issnPpub":"0412-1961","publisherId":"JSXB","title":"金属学报"},"keywords":[{"id":"58ee1269-a764-4f65-8cc6-1dba91673a12","keyword":"Mg-Al-Zn合金","originalKeyword":"Mg-Al-Zn合金"},{"id":"9cc9ddae-72f4-4701-91c2-a1a53e20065e","keyword":"累积叠轧焊","originalKeyword":"累积叠轧焊"},{"id":"e40c1bb0-0353-4918-b1d4-245072da15d7","keyword":"微观组织","originalKeyword":"微观组织"},{"id":"8c483722-8b3b-483d-b9a4-2a83271a15a1","keyword":"","originalKeyword":"织构"}],"language":"zh","publisherId":"jsxb201206010","title":"累积叠轧焊AZ31镁合金微观组织演变的EBSD研究","volume":"48","year":"2012"},{"abstractinfo":"将透射电镜(TEM)电子背散射衍射(EBSD)技术应用到药型罩的微观组织的分析中,研究不同的成型工艺对药型罩的微观组织的影响,结果表明:电铸药型罩晶粒细小,且晶粒沿罩的厚度方向有明显择优取向,即存在平行于晶粒生长方向的丝织;而旋压药型罩晶粒粗大,晶粒的晶体取向大体上呈随机分布,仅有微弱的形变,且这种形变经放置一段时间后就消失了,即有时效现象.这一结果为建立加工工艺与组织之间关系及重新认识旋压罩中的存在情况提供了一定的实验依据.","authors":[{"authorName":"范爱玲","id":"4aa50187-fcf5-4689-9c50-b8e8305181c3","originalAuthorName":"范爱玲"},{"authorName":"田文怀","id":"a64c4086-da98-483c-b015-62dd8582e67d","originalAuthorName":"田文怀"},{"authorName":"胡士廉","id":"1a533e71-cb51-421d-9456-9975e16880de","originalAuthorName":"胡士廉"},{"authorName":"周登陵","id":"05d0da8d-e03a-4880-8fa2-f0bf51f701c1","originalAuthorName":"周登陵"},{"authorName":"孙起","id":"dc4b5eae-e2f3-4291-80c4-73a0e2071f1f","originalAuthorName":"孙起"}],"doi":"10.3969/j.issn.1004-244X.2001.05.010","fpage":"38","id":"dba4210f-d99f-41e6-9513-9e79e3aaef27","issue":"5","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":"1e16c8fd-23e7-487f-9b95-a4d173474c3d","keyword":"电铸加工","originalKeyword":"电铸加工"},{"id":"55d848f4-e898-45f9-b93f-611f358f80a8","keyword":"旋压加工","originalKeyword":"旋压加工"},{"id":"dbf4d17c-1ffc-4ae2-9d7b-0b959d41c774","keyword":"药型罩","originalKeyword":"药型罩"},{"id":"8762563e-0440-4990-add1-76bcee4a35bb","keyword":"微观组织","originalKeyword":"微观组织"},{"id":"43ac6534-2e50-4c57-8b35-dcff1b68a188","keyword":"","originalKeyword":"织构"}],"language":"zh","publisherId":"bqclkxygc200105010","title":"电铸与旋压药型罩微观组织的研究","volume":"24","year":"2001"},{"abstractinfo":"电子背散射衍射(EBSD)技术是分析高纯金靶材微观组织的有效手段,可以快速高效地定量统计材料的微观组织结构、、晶粒尺寸、取向差.运用电子背散射衍射技术,研究通过优化真空熔炼工艺制备的高纯金溅射靶材不同区域的微观组织、晶界取向差.结果表明,高纯金靶材组织由细小的等轴晶组成,平均晶粒尺寸为206 nm,样品在轧制过程中发生再结晶,样品所测得的(110)平行于轧面,轧向不确定,为较弱的.","authors":[{"authorName":"朱勇","id":"b14af782-fbbd-47a2-8112-bb2091df3c01","originalAuthorName":"朱勇"},{"authorName":"阳岸恒","id":"1063ec63-5272-41c0-ad0c-fe1de7feed23","originalAuthorName":"阳岸恒"},{"authorName":"张济祥","id":"f5167e0a-f48e-4daf-9bde-bb5ddfe86708","originalAuthorName":"张济祥"},{"authorName":"谢宏潮","id":"20ceb719-43ce-4a98-9839-e0ff29b1dc59","originalAuthorName":"谢宏潮"},{"authorName":"卢绍平","id":"7f6490d3-747d-49da-b55a-880e4fa1a26b","originalAuthorName":"卢绍平"}],"doi":"10.3969/j.issn.2095-1744.2016.01.002","fpage":"5","id":"038a7408-4237-4994-8f7c-7aa50a948418","issue":"1","journal":{"abbrevTitle":"YSJSGC","coverImgSrc":"journal/img/cover/YSJSGC.jpg","id":"76","issnPpub":"2095-1744","publisherId":"YSJSGC","title":"有色金属工程"},"keywords":[{"id":"a269d1ee-f7bb-4616-a3ac-ec16a2c3a53d","keyword":"高纯金","originalKeyword":"高纯金"},{"id":"ee9b02b9-c85d-4c65-a718-6b11c9c6e238","keyword":"溅射靶材","originalKeyword":"溅射靶材"},{"id":"9a4c8391-d64f-48e8-982f-6f13eef861f4","keyword":"电子背散射衍射","originalKeyword":"电子背散射衍射"},{"id":"cac6d6fd-e01d-4191-a6c6-b74e56b80ebd","keyword":"取向差","originalKeyword":"取向差"},{"id":"556357b9-3f28-4a2f-b36b-4318cd038906","keyword":"","originalKeyword":"织构"}],"language":"zh","publisherId":"ysjs201601002","title":"运用电子背散射衍射技术研究高纯金溅射靶材的微观组织","volume":"6","year":"2016"},{"abstractinfo":"分别采用基于薄板坯连铸连轧(CSP)工艺传统热连轧工艺条件下的低碳钢板作为冷轧基料,在实验室模拟现场工艺进行了冷轧退火.通过金相观察X射线衍射分析,比较了两种工艺下低碳钢板的组织演变的规律.结果表明:两种试样冷轧后α取向线上显著增加的有较大的区别,CSP工艺下是{001}<110>,而传统工艺下是{112}<110>;在同样的冷轧及退火工艺条件下,CSP条件下的钢板在退火过程中发生再结晶需要的温度更高,时间更长;对于CSP钢板,退火对γ取向线的影响要大于冷轧对其的影响,而对于传统热连轧钢板,冷轧退火过程对γ取向线都有比较大的影响.","authors":[{"authorName":"李一鸣","id":"9c04c985-2759-4083-9fbe-b67b99566bc0","originalAuthorName":"李一鸣"},{"authorName":"任慧平","id":"d5367fd2-3488-47da-8b7a-cb9ed867c86c","originalAuthorName":"任慧平"},{"authorName":"金自力","id":"63748dd0-2cf2-4e06-ae27-e366dabc25aa","originalAuthorName":"金自力"},{"authorName":"李德刚","id":"8e7a1ae9-a661-4d6c-9618-4ace18f3346a","originalAuthorName":"李德刚"},{"authorName":"田荣彬","id":"1ba8af1e-98c9-47c9-8b8b-112349ba92e7","originalAuthorName":"田荣彬"}],"doi":"","fpage":"74","id":"1480bf35-ec2d-44b7-bc3c-a29d41666abc","issue":"1","journal":{"abbrevTitle":"CLRCLXB","coverImgSrc":"journal/img/cover/CLRCLXB.jpg","id":"15","issnPpub":"1009-6264","publisherId":"CLRCLXB","title":"材料热处理学报"},"keywords":[{"id":"1879a33c-cbd0-487e-b2a1-d65e1b145dc1","keyword":"CSP工艺","originalKeyword":"CSP工艺"},{"id":"78b3ae70-f8a2-43a9-b07a-8714d14fd7b4","keyword":"冷轧","originalKeyword":"冷轧"},{"id":"b6ad00db-1ce8-46df-bffb-87cbcdd94181","keyword":"再结晶","originalKeyword":"再结晶"},{"id":"59b377e5-a20d-42d8-9cb4-4983536c3139","keyword":"组织","originalKeyword":"组织"},{"id":"ad601353-0bd4-4368-82ba-5ebe09b859f5","keyword":"","originalKeyword":"织构"}],"language":"zh","publisherId":"jsrclxb201001015","title":"低碳钢板冷轧退火组织","volume":"31","year":"2010"},{"abstractinfo":"采用Nd:YAG激光进行了5A90铝锂合金薄板的对焊实验,借助光学显微镜、扫描电镜及EDS能谱、背散射衍射技术测试了焊缝的显微组织、合金元素分布及焊缝中的微观,并与母材进行了比较.结果表明:Nd:YAG激光焊接使5A90铝锂合金的微观组织微观发生了很大的变化.焊缝区呈现出大量的等轴枝晶组织,这是由于焊缝中存在较多的异质形核点较高的成分过冷度.焊缝中呈随机分布的状态,激光焊接完全改变了母材面心立方金属的冷轧组织.","authors":[{"authorName":"崔丽","id":"0dc0dc7d-1253-4b64-8bf5-f9f54e4113f2","originalAuthorName":"崔丽"},{"authorName":"李晓延","id":"a55f5968-66b9-4e13-814f-d3ba7edbd1be","originalAuthorName":"李晓延"},{"authorName":"贺定勇","id":"972aa7aa-82e2-4ae8-a035-033e53c4cce0","originalAuthorName":"贺定勇"},{"authorName":"陈俐","id":"731865ea-aefb-4ae3-ac66-7b727cbf154f","originalAuthorName":"陈俐"},{"authorName":"巩水利","id":"82193f74-2961-4930-ab33-f00603a8f940","originalAuthorName":"巩水利"}],"doi":"10.3969/j.issn.1001-4381.2012.05.002","fpage":"6","id":"c856b41d-32f1-4298-9e97-0ba9f7b0f3cb","issue":"5","journal":{"abbrevTitle":"CLGC","coverImgSrc":"journal/img/cover/CLGC.jpg","id":"9","issnPpub":"1001-4381","publisherId":"CLGC","title":"材料工程"},"keywords":[{"id":"5358c317-3a56-4edf-9e76-1f9ab93ca5bd","keyword":"铝锂合金","originalKeyword":"铝锂合金"},{"id":"3c86c956-952f-4cbc-ba24-b2caece33a15","keyword":"激光焊","originalKeyword":"激光焊"},{"id":"76b871aa-cbf2-4cd3-a8a3-41847ab7e434","keyword":"焊缝","originalKeyword":"焊缝"},{"id":"4d9e8de7-a54d-4ee7-b664-a932fe9c8dd7","keyword":"组织","originalKeyword":"组织"},{"id":"51db1ede-ee1a-4cea-8f02-4c4ea0856487","keyword":"","originalKeyword":"织构"}],"language":"zh","publisherId":"clgc201205002","title":"Nd:YAG激光焊接对铝锂合金组织的影响","volume":"","year":"2012"}],"totalpage":16269,"totalrecord":162688}