{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"采用摩擦喷射电沉积工艺制备了Ni-Al2O3纳米复合镀层.研究了电压、镀液中纳米颗粒含量、镀液喷射速度、镀笔相对运动速度等工艺参数对镀层沉积速度以及镀层中纳米颗粒含量的影响.结果表明,电压对镀层沉积速度影响较大,电压、镀液中纳米颗粒含量对复合含量的影响较大.扫描电镜及能谱测试显示,该纳米复合镀层表面较为平整、致密,纳米颗粒在镀层中呈均匀弥散分布,含量在2%~5%.","authors":[{"authorName":"魏孝信","id":"4acbe9c4-af94-45c6-b02b-a1a6e00aa726","originalAuthorName":"魏孝信"},{"authorName":"梁志杰","id":"fee24d76-fc87-4a77-8cb9-5ca7486617aa","originalAuthorName":"梁志杰"},{"authorName":"曹勇","id":"dad51871-506c-435e-ab27-3118b3b0985d","originalAuthorName":"曹勇"}],"doi":"10.3969/j.issn.1004-227X.2006.05.003","fpage":"7","id":"de860c47-f75a-4039-93d9-51dbd80cce9c","issue":"5","journal":{"abbrevTitle":"DDYTS","coverImgSrc":"journal/img/cover/DDYTS.jpg","id":"21","issnPpub":"1004-227X","publisherId":"DDYTS","title":"电镀与涂饰 "},"keywords":[{"id":"8636b24a-7f59-4b29-9184-4bd15129636f","keyword":"摩擦喷射","originalKeyword":"摩擦喷射"},{"id":"5c0f22b1-0db4-4606-ac86-674a36ad4ad7","keyword":"电沉积","originalKeyword":"电沉积"},{"id":"02b4925a-0744-4ceb-ab82-9b0f80171fcc","keyword":"Ni-Al2O3纳米复合镀层","originalKeyword":"Ni-Al2O3纳米复合镀层"},{"id":"cce605ae-fd54-4ea1-804a-35dc36bd118c","keyword":"镀液喷射速度","originalKeyword":"镀液喷射速度"},{"id":"b92881da-f36d-4ce5-a120-4b5ec13bda00","keyword":"镀笔相对运动速度","originalKeyword":"镀笔相对运动速度"},{"id":"f891927a-9a1d-4ae3-a6c5-0e5ae7d39b34","keyword":"复合含量","originalKeyword":"复合含量"}],"language":"zh","publisherId":"ddyts200605003","title":"摩擦喷射电沉积制备Ni-Al2O3纳米复合镀层","volume":"25","year":"2006"},{"abstractinfo":"本试验在不同的工艺参数下,分别用常规喷射电沉积以及摩擦喷射电沉积技术在石墨基底上制备钴沉积层,并对样件进行硬度检测以及微观形貌观察.结果表明,两种试验条件下,沉积层硬度随电流密度的增加均呈先增后减趋势并随着阴极转速的增大而增高,摩擦条件下的沉积层硬度相对更高(最大硬度值为581HV).此外,硬质粒子机械摩擦工艺下的晶粒的沉积堆叠过程发生了改变,表层由岛状突起变为均匀沉积.","authors":[{"authorName":"张磊","id":"4ab81694-2a22-48ce-b673-1ec5393303cf","originalAuthorName":"张磊"},{"authorName":"沈理达","id":"ed452b1d-cbba-4303-abb4-b22fe40d6492","originalAuthorName":"沈理达"},{"authorName":"刘志东","id":"47a46f8b-9d1e-4846-bc59-35c14ff280a2","originalAuthorName":"刘志东"},{"authorName":"朱军","id":"9478b92e-a662-44f1-b3a4-7466c56a135f","originalAuthorName":"朱军"},{"authorName":"马云","id":"a28d116a-0390-4b74-be56-3e816fade2de","originalAuthorName":"马云"}],"doi":"","fpage":"243","id":"3b36ff2b-b3ac-447b-880d-555d8084eaf5","issue":"2","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":"516906fa-52af-4cf4-b4ce-f565a584459a","keyword":"喷射电沉积","originalKeyword":"喷射电沉积"},{"id":"4bd307f4-738f-4a58-89a5-8c1aa6e6fc99","keyword":"摩擦","originalKeyword":"摩擦"},{"id":"fac3f960-3c8f-43e1-a149-2e1bc2f0f9eb","keyword":"钴","originalKeyword":"钴"},{"id":"567e63d5-8f9c-491d-8f47-a144bbc819f7","keyword":"硬质粒子","originalKeyword":"硬质粒子"},{"id":"af86b35a-b7ff-46ec-8fd0-68d108589ee7","keyword":"硬度","originalKeyword":"硬度"}],"language":"zh","publisherId":"clkxygc201302018","title":"摩擦喷射电沉积钴的微观形貌和硬度","volume":"31","year":"2013"},{"abstractinfo":"摩擦喷射复合电沉积技术是新近发展起来的一种高速电沉积技术,该技术具有沉积速度快、镀厚能力强、镀层性能优良等特点.本文介绍了该技术的原理、特点,探讨了工艺因素对镀层质量的影响,并对该技术今后的发展提出了建议.","authors":[{"authorName":"曹勇","id":"09c38c5f-a9d0-474a-a487-6e0aeaad5ca9","originalAuthorName":"曹勇"},{"authorName":"梁志杰","id":"c8bc9ada-8364-433e-8f02-caf595b24c6e","originalAuthorName":"梁志杰"},{"authorName":"谢凤宽","id":"9f8dce3a-18bc-4021-a563-9726e1f6f3fc","originalAuthorName":"谢凤宽"},{"authorName":"赵殿峰","id":"b4793bdd-6130-4ecd-a223-dc3ce7a9b672","originalAuthorName":"赵殿峰"}],"doi":"10.3969/j.issn.1001-3660.2004.03.009","fpage":"22","id":"fe493c41-6037-4202-b391-d5fd7c2e3b0b","issue":"3","journal":{"abbrevTitle":"BMJS","coverImgSrc":"journal/img/cover/BMJS.jpg","id":"3","issnPpub":"1001-3660","publisherId":"BMJS","title":"表面技术 "},"keywords":[{"id":"5b4f110f-f79d-47c6-aa9e-118bc2802304","keyword":"摩擦喷射电沉积","originalKeyword":"摩擦喷射电沉积"},{"id":"10902d6b-d4ef-4fdc-a56f-fd4ff9a0a567","keyword":"复合电沉积","originalKeyword":"复合电沉积"},{"id":"3f31cdf9-bf1f-4400-aee7-9fa7d1022f80","keyword":"工艺因素","originalKeyword":"工艺因素"}],"language":"zh","publisherId":"bmjs200403009","title":"摩擦喷射复合电沉积技术研究","volume":"33","year":"2004"},{"abstractinfo":"为了探索提高HM1钢耐磨性能的制备新途径,采用往复式滑动干摩擦实验研究了精密喷射成形HM1钢摩擦磨损性能并对其磨损机制进行了分析,同时还与铸态材料进行了对比。结果表明:不同载荷下,喷射态和喷射回火态HM1钢摩擦系数均低于铸态;当载荷为100 N时,与铸态相比,喷射态磨损量比其低约34%,喷射回火态磨损量比其减少约48%。对磨痕形貌分析表明,当载荷为40 N时,铸态试样以粘着磨损为主,当载荷为100 N时,转换为粘着磨损与磨粒磨损共存,并伴随严重的氧化磨损;对于喷射态和喷射回火态试样,则以磨粒磨损为主,氧化磨损减轻。","authors":[{"authorName":"程永奇","id":"690e675c-d8fb-4dc6-90df-bdd8aac71e6d","originalAuthorName":"程永奇"},{"authorName":"汪存龙","id":"6e876860-13d3-4c86-a427-bb5bb3db6703","originalAuthorName":"汪存龙"},{"authorName":"张鹏","id":"c05de609-737d-42df-a6ca-334d8c437150","originalAuthorName":"张鹏"},{"authorName":"孙友松","id":"828244f9-595f-4b02-9481-e02db5b9e502","originalAuthorName":"孙友松"}],"doi":"","fpage":"108","id":"521423e7-fa44-4fde-9224-9a253066ee2b","issue":"5","journal":{"abbrevTitle":"CLKXYGY","coverImgSrc":"journal/img/cover/CLKXYGY.jpg","id":"14","issnPpub":"1005-0299","publisherId":"CLKXYGY","title":"材料科学与工艺"},"keywords":[{"id":"804eee3a-47e9-42cd-83b8-92690f578ba1","keyword":"HM1钢","originalKeyword":"HM1钢"},{"id":"1ed21b8c-66d0-49d2-81af-92d2f97cf540","keyword":"摩擦磨损","originalKeyword":"摩擦磨损"},{"id":"e4a71f3f-d71e-4e95-a48e-20d8188b112e","keyword":"磨损机制","originalKeyword":"磨损机制"},{"id":"d19efcd4-1b26-4f56-b149-088449c58b2e","keyword":"精密喷射成形","originalKeyword":"精密喷射成形"}],"language":"zh","publisherId":"clkxygy201405019","title":"精密喷射成形HM1钢摩擦磨损性能研究","volume":"","year":"2014"},{"abstractinfo":"采用摩擦辅助喷射电沉积工艺和传统喷射电沉积工艺制备纳米晶镍,用TEM对比分析了二者的组织结构,用电化学极化法研究了2种纳米晶镍层在3.5%NaCl(质量分数)溶液及1 mol/L H2SO4溶液中的腐蚀行为.结果表明,摩擦辅助喷射电沉积结晶过程更加均匀,制备的纳米晶镍层组织致密,晶粒细小,平均晶粒达到9.77 nm;在2种腐蚀溶液中,摩擦辅助喷射电沉积制备的纳米晶镍的电化学腐蚀性能均优于传统喷射电沉积;在NaC1溶液中,摩擦辅助喷射电沉积所制纳米晶镍在腐蚀过程中有钝化膜产生.并指出晶粒大小与微观缺陷是影响纳米晶镍耐腐蚀性能的2个重要因素.","authors":[{"authorName":"朱军","id":"18e6d690-3d37-478c-bb9f-3728c991d91c","originalAuthorName":"朱军"},{"authorName":"沈理达","id":"b8aacc64-6aee-4fbb-8d2a-8ca4d0fa6455","originalAuthorName":"沈理达"},{"authorName":"田宗军","id":"33a600d5-40c6-4779-b16a-08060302fb14","originalAuthorName":"田宗军"},{"authorName":"刘志东","id":"f2453690-cafe-4a4d-a147-b82fb56210e8","originalAuthorName":"刘志东"},{"authorName":"黄因慧","id":"7e63813e-dab1-4881-b79c-b7bc84f6c664","originalAuthorName":"黄因慧"},{"authorName":"王桂峰","id":"b346aea2-5d1c-40a3-bf79-873bd2f700b4","originalAuthorName":"王桂峰"}],"doi":"","fpage":"2371","id":"a60992dc-a460-4610-9af7-480975a4b17d","issue":"11","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":"647b130d-1a19-4df9-a20b-4b7b874641ba","keyword":"摩擦","originalKeyword":"摩擦"},{"id":"c51a5386-57ea-43a6-a987-85afde65718d","keyword":"喷射电沉积","originalKeyword":"喷射电沉积"},{"id":"b12bc76d-9cf4-4104-a2dd-b813575f2928","keyword":"纳米晶镍","originalKeyword":"纳米晶镍"},{"id":"6448e903-b55b-4e32-b183-a324a0a836c1","keyword":"腐蚀","originalKeyword":"腐蚀"}],"language":"zh","publisherId":"xyjsclygc201311035","title":"摩擦辅助喷射电沉积纳米晶镍的电化学腐蚀行为","volume":"42","year":"2013"},{"abstractinfo":"采用脉冲摩擦喷射电沉积和直流喷射电沉积分别在石墨基底上制备了纳米晶镍镀层,利用扫描电镜和X射线衍射分析了脉冲占空比和脉冲频率对镍镀层的表面形貌、晶粒的择优取向及平均晶粒尺寸的影响.结果表明脉冲摩擦喷射电沉积较直流喷射电沉积的沉积效果有较大提高,在喷嘴流量为200L/h,平均电流密度为80A/dm2,阴极转速为6r/min的条件下,脉冲占空比为50%,脉冲频率为2000Hz时可以获得表面较为平整光亮、组织致密的Ni沉积层.","authors":[{"authorName":"马云","id":"995ebb4d-36f7-457a-b88a-6ee12f80bfe6","originalAuthorName":"马云"},{"authorName":"沈理达","id":"d55881fd-ec28-4e47-9385-6e0727c5e556","originalAuthorName":"沈理达"},{"authorName":"田宗军","id":"7e4fcd3a-2222-4492-b6a2-3689f6d346ed","originalAuthorName":"田宗军"},{"authorName":"刘志东","id":"743c9837-3fd8-4693-ab52-56e100d65710","originalAuthorName":"刘志东"},{"authorName":"朱军","id":"af9882ac-db02-4e21-85fb-b711c59af729","originalAuthorName":"朱军"}],"doi":"10.3969/j.issn.1001-4381.2014.03.011","fpage":"60","id":"a993af25-93e9-4d71-887f-88e68c7bae8d","issue":"3","journal":{"abbrevTitle":"CLGC","coverImgSrc":"journal/img/cover/CLGC.jpg","id":"9","issnPpub":"1001-4381","publisherId":"CLGC","title":"材料工程"},"keywords":[{"id":"d44e22a9-6b74-4a06-a5f0-e195ef11cd4c","keyword":"喷射电沉积","originalKeyword":"喷射电沉积"},{"id":"f5f6139d-72d3-4047-bcae-483d2e182887","keyword":"脉冲电源","originalKeyword":"脉冲电源"},{"id":"2070cfe0-f20f-48d2-8867-187c71e03218","keyword":"摩擦","originalKeyword":"摩擦"},{"id":"66ab42f0-8b88-4ebf-a708-5e5b8f5e6bca","keyword":"纳米晶","originalKeyword":"纳米晶"},{"id":"28c511f8-2e55-44c9-a179-7edb8be91b0c","keyword":"镍","originalKeyword":"镍"}],"language":"zh","publisherId":"clgc201403011","title":"脉冲摩擦喷射电沉积制备纳米晶镍沉积层","volume":"","year":"2014"},{"abstractinfo":"摩擦喷射纳米颗粒复合电沉积工艺是一项获得纳米颗粒复合镀层的表面工程新技术,具有复合含量高,工艺简单等特点.讨论了纳米颗粒、电压、摩擦压力、相对运动速度以及镀液的喷射速度等主要工艺参数对Ni-Al2O3纳米颗粒复合镀层电沉积过程的影响.","authors":[{"authorName":"梁志杰","id":"8290c1e7-0734-40cf-872b-db6243c2d7ee","originalAuthorName":"梁志杰"},{"authorName":"曹勇","id":"7dc0d9b4-947b-47d2-82e3-0cf54cbd216b","originalAuthorName":"曹勇"},{"authorName":"闫涛","id":"170afc99-c82e-460a-93fb-8738ae17abba","originalAuthorName":"闫涛"}],"doi":"10.3969/j.issn.1001-3849.2006.02.005","fpage":"18","id":"f27be028-41db-40d9-99a8-6bcd285eeb6d","issue":"2","journal":{"abbrevTitle":"DDYJS","coverImgSrc":"journal/img/cover/DDYJS.jpg","id":"20","issnPpub":"1001-3849","publisherId":"DDYJS","title":"电镀与精饰 "},"keywords":[{"id":"37b54cd2-f7d5-44ba-914c-f81f3d6c0279","keyword":"摩擦喷射电镀","originalKeyword":"摩擦喷射电镀"},{"id":"328aec41-e197-4b81-9413-e19341b9689a","keyword":"纳米材料","originalKeyword":"纳米材料"},{"id":"1067ef95-43d9-4412-8bdd-e3618ce03fa6","keyword":"共沉积","originalKeyword":"共沉积"}],"language":"zh","publisherId":"ddjs200602005","title":"摩擦喷射Al2O3纳米颗粒与镍共沉积过程研究","volume":"28","year":"2006"},{"abstractinfo":"为进一步研究脉冲电源对脉冲摩擦喷射电沉积的影响,本文分别采用脉冲摩擦喷射电沉积工艺和传统喷射电沉积工艺制备镍沉积层,利用TEM和XRD对比分析了占空比和频率对纳米晶镍微观组织结构的影响,采用电化学极化法研究了各沉积层在3.5%氯化钠溶液中的耐腐蚀性能,以期为拓展纳米晶材料的应用提供理论依据.研究表明:脉冲摩擦电沉积的应用,使电沉积结晶过程更加均匀,晶粒得到极大细化,最小平均晶粒尺寸可达9.12 nm;在氯化钠溶液中,脉冲摩擦喷射电沉积具有更小的腐蚀电流密度和更宽的钝化区,制备的镍沉积层电化学腐蚀性能均优于传统喷射电沉积;占空比和频率对沉积层腐蚀性能的影响与其各自对晶粒大小的影响基本吻合,过小或过大的占空比及频率均会导致耐腐蚀性能的降低.","authors":[{"authorName":"易笃钢","id":"2a508a00-f38e-4f9f-b953-e8f562d05de8","originalAuthorName":"易笃钢"},{"authorName":"沈理达","id":"6001c11d-2a23-470c-b666-6b6d66f4c370","originalAuthorName":"沈理达"},{"authorName":"朱军","id":"c72a0a1f-2d8e-4790-b1f5-700db4dd8782","originalAuthorName":"朱军"},{"authorName":"田宗军","id":"59d10871-eb6b-4acb-addb-dc50e32cc8cf","originalAuthorName":"田宗军"},{"authorName":"刘志东","id":"5f66f4b4-4289-4cde-a0f4-f1603f60b0f3","originalAuthorName":"刘志东"}],"doi":"10.11951/j.issn.1005-0299.20150319","fpage":"96","id":"f900915b-2cf2-426b-9b00-fbfbf944024f","issue":"3","journal":{"abbrevTitle":"CLKXYGY","coverImgSrc":"journal/img/cover/CLKXYGY.jpg","id":"14","issnPpub":"1005-0299","publisherId":"CLKXYGY","title":"材料科学与工艺"},"keywords":[{"id":"274fedaa-9d69-42d6-a899-5950ff9f6d2c","keyword":"脉冲","originalKeyword":"脉冲"},{"id":"795550f7-37f8-4c2a-bdbf-3b05057e58b6","keyword":"摩擦","originalKeyword":"摩擦"},{"id":"dfac4f35-4217-43b5-bf3e-5a0a9ffcc1bc","keyword":"喷射电沉积","originalKeyword":"喷射电沉积"},{"id":"b9f1d56a-a39b-4943-b294-eecb588d2051","keyword":"纳米镍","originalKeyword":"纳米镍"},{"id":"a7b226ac-3f36-4162-9d64-eac0e1b19e98","keyword":"腐蚀","originalKeyword":"腐蚀"}],"language":"zh","publisherId":"clkxygy201503020","title":"脉冲摩擦喷射电沉积纳米晶镍的电化学腐蚀行为","volume":"","year":"2015"},{"abstractinfo":"在ZA35合金基础上添加适量的合金元素锰,采用喷射沉积+热挤压的成形方法获得试验材料,对试验材料的力学性能和摩擦磨损性能进行了测试,用扫描电镜观察了其组织和磨损形貌,用X射线衍射仪测定了物相.结果表明:喷射沉积ZA35-3.5%Mn合金与金属型铸造相同成分合金相比,前者组织均匀,晶粒细小,抗拉强度明显提高,达到484.2 MPa;喷射沉积ZA35-3.5%Mn合金中的合金元素锰形成了硬质相作为承载相,使其耐磨损性能提高.","authors":[{"authorName":"刘敬福","id":"f7f1ba8f-8d5f-45e7-afce-e456d1368d71","originalAuthorName":"刘敬福"},{"authorName":"李荣德","id":"d0747072-bcd7-42d0-a32b-799e3e2f620d","originalAuthorName":"李荣德"},{"authorName":"李赫亮","id":"003b2fa4-12ba-42cf-adec-029bcc3ce191","originalAuthorName":"李赫亮"},{"authorName":"王盈","id":"eda79d33-d1a0-415b-86fe-7d313bfdff17","originalAuthorName":"王盈"},{"authorName":"吴德枫","id":"def3a6c6-9f73-4462-8393-7c5734f7823c","originalAuthorName":"吴德枫"}],"doi":"10.3969/j.issn.1000-3738.2008.02.017","fpage":"57","id":"559ace4b-ec35-4aa0-a226-6c9b87cc8ab9","issue":"2","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":"d1e39162-3690-4c3e-b934-7f4ac34921e5","keyword":"ZA35","originalKeyword":"ZA35"},{"id":"3b5c7f13-bd85-41fe-9e66-701daf4a0d99","keyword":"锰","originalKeyword":"锰"},{"id":"86e39511-75cb-4d73-af6f-41a42361c6bd","keyword":"喷射沉积","originalKeyword":"喷射沉积"},{"id":"8b854484-125c-4551-afca-ad7ceea91291","keyword":"抗拉强度","originalKeyword":"抗拉强度"},{"id":"765d45ec-6626-4f83-b110-23f742d657da","keyword":"磨损性能","originalKeyword":"磨损性能"}],"language":"zh","publisherId":"jxgccl200802017","title":"喷射沉积ZA35-3.5%Mn合金的力学和摩擦磨损性能","volume":"32","year":"2008"},{"abstractinfo":"采用连续驱动摩擦焊方法对喷射成形7055铝棒进行了摩擦焊接试验,并对焊接接头的宏观形貌、微观组织和性能进行了分析.试验结果表明:焊接接头的热输入量对于接头外观成形影响较大,当转速为1470r/min时,采用一级时间5s,二级位移2mm,顶锻时间5s,一级压力、二级压力和顶锻压力分别为1MPa、4MPa和4MPa的参数进行焊接时能获得外观成形良好、性能优良的的焊接接头.根据接头明显的区域特征可将其分为四部分:WZ、HMAZI、HMAZII和HAZ;在WZ区、HMAZI区和HMAZII区均发生了动态再结晶,组织致密,晶粒细小;硬度最高区域为HMAZI区,可达原始材料的85%左右;接头导电率可以达到原始材料的水平.","authors":[{"authorName":"戴安伦","id":"c0c89d0f-f298-4204-89e5-34206514e132","originalAuthorName":"戴安伦"},{"authorName":"陈惠","id":"9b8ac0a4-7be3-4c41-8b7c-1b8ce361b938","originalAuthorName":"陈惠"},{"authorName":"朱志愿","id":"e20dfe68-891b-4eb3-8adb-62b99df32fbd","originalAuthorName":"朱志愿"},{"authorName":"牛文明","id":"addf16dc-387f-4ed4-830f-0f03c6bf0802","originalAuthorName":"牛文明"},{"authorName":"朱凯","id":"77b41e43-a68d-41d6-b237-598c50b7d8d9","originalAuthorName":"朱凯"},{"authorName":"张豪","id":"bd480c1f-8301-4f1a-a93c-31b111dd1d6b","originalAuthorName":"张豪"},{"authorName":"蒋云泽","id":"095fba5d-809e-41ab-899a-454fe80ef5a2","originalAuthorName":"蒋云泽"},{"authorName":"张杰","id":"641ad316-44e8-42f8-a3fc-fa333a54b4a1","originalAuthorName":"张杰"},{"authorName":"姜靖","id":"59e1d478-9c39-4746-a7d2-db24902b8dd0","originalAuthorName":"姜靖"}],"doi":"","fpage":"242","id":"dae90210-b1ef-46df-9c4a-dfe3b900ef39","issue":"2","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":"da2e41d0-a7d5-46b7-b04e-864bf67ad523","keyword":"喷射成形7055","originalKeyword":"喷射成形7055"},{"id":"693d4657-c028-4999-b680-6159037cc4fe","keyword":"连续驱动摩擦焊","originalKeyword":"连续驱动摩擦焊"},{"id":"38c4c9ee-a90a-41b8-91a0-f08430ea80ac","keyword":"铝合金","originalKeyword":"铝合金"}],"language":"zh","publisherId":"clkxygc201402018","title":"喷射成形7055铝合金摩擦焊焊接接头结构与性能","volume":"32","year":"2014"}],"totalpage":536,"totalrecord":5352}