{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"在不同的总压下率下,对两块尺寸和成分状态相同的连铸坯进行真空轧制复合,以得到特厚复合钢板。分析了总压下率对复合板的界面组织和Z向力学性能的影响。结果表明,在总压下率10%下,复合板界面存在条状缺陷,利用原位观察法和能谱分析证实该缺陷由Al-Si-Mn氧化物和孔隙组成。当总压下率超过30%后,缺陷中孔隙消失,氧化物逐渐被细化,当总压下率达到70%,界面氧化物几乎消失。随着总压下率的增加,复合板的Z向抗拉强度和伸长率均显著增加。总压下率为10%时,复合板断裂在界面且为脆性断裂,伸长率很低;总压下率70%时,复合板断裂在母材且为韧性断裂,伸长率和Z向抗拉强度最高。","authors":[{"authorName":"谢广明","id":"474b7c98-c35a-4d27-baed-67e8aca6b70d","originalAuthorName":"谢广明"},{"authorName":"骆宗安","id":"c90ab156-aca5-4858-ab23-4dc4626f0a70","originalAuthorName":"骆宗安"},{"authorName":"王国栋","id":"69028f43-b532-4979-a6df-28ba8b13e61d","originalAuthorName":"王国栋"}],"doi":"","fpage":"27","id":"8ceda757-3871-4d21-8120-c43b7fd471c4","issue":"12","journal":{"abbrevTitle":"GTYJXB","coverImgSrc":"journal/img/cover/GTYJXB.jpg","id":"30","issnPpub":"1001-0963","publisherId":"GTYJXB","title":"钢铁研究学报"},"keywords":[{"id":"15cf3183-1925-4205-bab3-13af19e0822c","keyword":"真空轧制复合","originalKeyword":"真空轧制复合"},{"id":"ff01b258-7bf2-4424-b43e-9ec088f24130","keyword":"特厚复合板","originalKeyword":"特厚复合板"},{"id":"2d51eca4-56f7-4b37-8cc1-ef1170589c8a","keyword":"微观组织","originalKeyword":"微观组织"},{"id":"af85b79f-db92-46fb-901d-879fc5d5f01b","keyword":"Z向力学性能","originalKeyword":"Z向力学性能"}],"language":"zh","publisherId":"gtyjxb201112007","title":"轧制工艺对真空轧制复合钢板组织与性能的影响","volume":"23","year":"2011"},{"abstractinfo":"研究了6061铝合金(厚度为28 mm)-304L薄不锈钢(厚度为4mm)复合板的爆炸焊接工艺.结果表明,以薄不锈钢为基层,纯铝为过渡层,分别以12 mm和16mm厚的铝合金为复层进行3次爆炸焊接,可得到性能合格的厚铝合金-薄不锈钢复合板.","authors":[{"authorName":"崔卫超","id":"76da4819-0976-49a1-bb1f-d37da9a1bd11","originalAuthorName":"崔卫超"},{"authorName":"辛宝","id":"2422baf5-6c81-41db-abe0-3f5f5d2bb31a","originalAuthorName":"辛宝"},{"authorName":"徐宇皓","id":"c74b4a37-f842-41b0-a1fe-20397a55d81a","originalAuthorName":"徐宇皓"},{"authorName":"王宾宾","id":"3dc02669-68f9-4199-a310-cf5d99f30026","originalAuthorName":"王宾宾"}],"doi":"","fpage":"47","id":"4ddcc7de-3433-468d-9c6b-354b190eb7aa","issue":"2","journal":{"abbrevTitle":"CLKFYYY","coverImgSrc":"journal/img/cover/CLKFYYY.jpg","id":"10","issnPpub":"1003-1545","publisherId":"CLKFYYY","title":"材料开发与应用"},"keywords":[{"id":"d6d276e5-3712-47d2-82ab-d2f5f820026f","keyword":"铝合金-不锈钢复合板","originalKeyword":"铝合金-不锈钢复合板"},{"id":"c2328000-f7b9-43df-bf40-1a178c16d1fe","keyword":"爆炸焊接","originalKeyword":"爆炸焊接"},{"id":"eea72725-8445-4de9-8ab7-6acb7548370a","keyword":"工艺试验","originalKeyword":"工艺试验"}],"language":"zh","publisherId":"clkfyyy201402010","title":"厚铝合金-薄不锈钢复合板爆炸焊接工艺研究","volume":"29","year":"2014"},{"abstractinfo":"研究3 mm厚的钛/钢复合板在爆炸焊接工艺技术条件下,采用不同药量的低爆速炸药,通过从起爆端开始沿爆轰长度方向对结合界面进行波纹检测及氧化和熔化研究,研究低爆速炸药不同用药量时在钛/钢复合板的稳定爆轰长度,为长度≥4 m钛/钢复合板爆炸焊接工艺参数的制定建立基础.","authors":[{"authorName":"关尚哲","id":"817aefea-3c9e-46b0-84f9-332d1f5a07ed","originalAuthorName":"关尚哲"},{"authorName":"刘润生","id":"8211d1d5-774e-4f78-adde-96b48cd3c7a5","originalAuthorName":"刘润生"},{"authorName":"范江峰","id":"d8375be8-0915-4398-a1d9-b7c4d199a9cf","originalAuthorName":"范江峰"},{"authorName":"张杭永","id":"d008a409-e593-49ba-8e18-78175972c098","originalAuthorName":"张杭永"},{"authorName":"车龙泉","id":"17fb55ee-b21f-4c5e-a0a2-dfa8f51c8960","originalAuthorName":"车龙泉"},{"authorName":"付光辉","id":"10345073-f20b-4871-bcb1-65ce8ff8a75c","originalAuthorName":"付光辉"}],"doi":"","fpage":"219","id":"2c19957b-b1ed-405d-965c-fbb951efabd3","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":"aca8229d-01f1-449d-a228-d986a36d955b","keyword":"钛/钢复合板","originalKeyword":"钛/钢复合板"},{"id":"4b13a689-f259-42e5-ae46-8617a3db3a33","keyword":"低爆速炸药","originalKeyword":"低爆速炸药"},{"id":"c12eaed4-8572-4bdf-aada-bf2591a987b3","keyword":"爆轰载荷","originalKeyword":"爆轰载荷"},{"id":"d9284eaa-23de-4389-8ad8-8dafff128bd7","keyword":"稳定长度","originalKeyword":"稳定长度"}],"language":"zh","publisherId":"zgysjsxb2010z1049","title":"3 mm厚钛/钢复合板低爆速炸药稳定爆轰的研究","volume":"20","year":"2010"},{"abstractinfo":"为明确层厚比与对钛/钢复合板组织及力学性能的关系,推进TA1/X80层状爆炸复合板在油气运输、航空航天领域的应用,采用爆炸-轧制法,制备7种不同层厚比的TA1/X80层状复合板,通过拉伸、冲击、弯曲、硬度等实验研究层厚比对复合板组织、力学性能的影响,利用OM、SEM、EDS等检测实验分析断口形貌及断裂机制.结果表明:TA1/X80爆炸-轧制复合板界面以周期性波状咬合机制结合,组织均呈流线状,在过渡区Ti、Fe元素发生扩散;TA1、X80层厚比增加,复合板的抗拉强度、屈服强度、塑性、韧性、正弯强度、正弯挠度均呈线性降低趋势,背弯强度和背弯挠度线性增大,且随着向界面靠近,钢侧硬度降低,钛侧硬度升高;由钛侧到钢侧,拉伸断面由沿晶断裂机制过渡为准解理断裂机制,冲击断面由撕裂韧窝断裂机制过渡为等轴韧窝断裂机制.","authors":[{"authorName":"吴伟刚","id":"c3f33cf5-0780-4de3-8529-c0f1f90f5e96","originalAuthorName":"吴伟刚"},{"authorName":"张敏","id":"84cf4c87-37d8-40f0-9732-b9e33acd7d11","originalAuthorName":"张敏"},{"authorName":"丁旭","id":"1bcccf3c-f5a1-4e85-953c-24064c86fc78","originalAuthorName":"丁旭"},{"authorName":"王永锋","id":"aeedf3a8-bc51-4f96-b8e4-ff9812ecd640","originalAuthorName":"王永锋"},{"authorName":"来东","id":"32dcd9f5-8b91-43c4-af96-4985aeba16a6","originalAuthorName":"来东"}],"doi":"","fpage":"61","id":"06fd3829-de25-4778-9284-d987b587c883","issue":"4","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":"85a52f4f-78c9-4fd7-ad48-ab123af46d62","keyword":"层厚比","originalKeyword":"层厚比"},{"id":"f08224c8-a104-4471-b529-6f73fa78e905","keyword":"TA1/X80爆炸-轧制复合板","originalKeyword":"TA1/X80爆炸-轧制复合板"},{"id":"fb6aaeca-c588-4406-b7bb-eb96439b956b","keyword":"组织","originalKeyword":"组织"},{"id":"f0592422-bfc2-41e0-abbe-dba392b676b5","keyword":"力学性能","originalKeyword":"力学性能"},{"id":"29c86bcf-a053-4d90-b5fb-2b7cb5cf4355","keyword":"断裂机制","originalKeyword":"断裂机制"}],"language":"zh","publisherId":"bqclkxygc201604015","title":"层厚比对TA1/X80复合板组织和性能的影响","volume":"39","year":"2016"},{"abstractinfo":"通过经验公式和工艺实验初步确定爆炸焊接工艺参数,再采用有限元动力学分析软件进行大面积厚复层爆炸焊接过程仿真研究.通过实验研究了基复板间的位移、结合等变化过程;并通过分析调整工艺参数的模拟结果,得出当药高调整至47mm时复合板的结合率达到了峰值.该研究为大面积厚层钛钢复合板的爆炸焊接工艺参数的科学制定提供了依据.","authors":[{"authorName":"薛治国","id":"86901cec-d2cb-4a0d-b5df-2eeb759458f0","originalAuthorName":"薛治国"},{"authorName":"樊科社","id":"399131b1-42ab-416a-abe7-32adeb228d23","originalAuthorName":"樊科社"},{"authorName":"黄杏利","id":"31990ea1-14a2-412b-a66f-15a4f66950af","originalAuthorName":"黄杏利"},{"authorName":"王虎年","id":"ed8be575-43c8-4bf7-9ef2-5c5e0a8c57e5","originalAuthorName":"王虎年"}],"doi":"10.3969/j.issn.1003-1545.2011.05.003","fpage":"11","id":"13c9c3d5-3af9-41f1-b055-6caca5ecc5d6","issue":"5","journal":{"abbrevTitle":"CLKFYYY","coverImgSrc":"journal/img/cover/CLKFYYY.jpg","id":"10","issnPpub":"1003-1545","publisherId":"CLKFYYY","title":"材料开发与应用"},"keywords":[{"id":"aef21003-b7d1-4144-bb76-6902da5910f2","keyword":"爆炸焊接","originalKeyword":"爆炸焊接"},{"id":"fdf60799-8bf5-4560-bfda-49cc65f98014","keyword":"仿真研究","originalKeyword":"仿真研究"},{"id":"b716c7d8-ff32-42ac-8721-13c309efff10","keyword":"实验研究","originalKeyword":"实验研究"},{"id":"f21ba9ce-e8c8-4637-a657-043665372694","keyword":"参数设计","originalKeyword":"参数设计"}],"language":"zh","publisherId":"clkfyyy201105003","title":"数值模拟在大面积厚复层钛钢复合板研制中的应用","volume":"26","year":"2011"},{"abstractinfo":"阐明了双金属复合板的发展意义,并按两种金属的不同状态将双金属复合板的制备方法分为3大类(固-固复合法、固-液复合法及液-液复合法).介绍了层状金属复合板制造方法以及各种制造方法的特点,包括爆炸焊接法、轧制复合法、爆炸+轧制、反向凝固、电磁连铸、钎焊热轧复合法、喷射沉积复合法、扩散焊接、离心铸造等.","authors":[{"authorName":"刘环","id":"12cdf887-ccf7-4220-8710-ac1a78b36e35","originalAuthorName":"刘环"},{"authorName":"郑晓冉","id":"aaa6af91-ab0a-4567-8e9b-8a0139e7b8c9","originalAuthorName":"郑晓冉"}],"doi":"","fpage":"131","id":"78243f75-8a50-4748-ac03-dd52198863e3","issue":"z1","journal":{"abbrevTitle":"CLDB","coverImgSrc":"journal/img/cover/CLDB.jpg","id":"8","issnPpub":"1005-023X","publisherId":"CLDB","title":"材料导报"},"keywords":[{"id":"cc894a62-ffb1-4a62-8cff-45d158c8e9a4","keyword":"金属","originalKeyword":"金属"},{"id":"5a2cb533-e2e6-46a4-9d88-a2c8966bbfd6","keyword":"层状复合板","originalKeyword":"层状复合板"},{"id":"f1a1e7be-d3a6-4309-a437-438fca4f7f2c","keyword":"制备技术","originalKeyword":"制备技术"}],"language":"zh","publisherId":"cldb2012z1034","title":"层状金属复合板制备技术","volume":"26","year":"2012"},{"abstractinfo":"提高成材率和复合界面质量是制备多层复合板的难题.本工作提出一种多层复合板的高成材率热轧制备方法,即采用氩弧焊固定各层原料板组成坯料,坯料放入金属套后抽真空,再加热到1000~1200℃进行多道次轧制,成功制备出2.5mm厚的67层复合板.通过金相显微镜及电子显微镜观察和分析了界面组织及元素扩散行为,采用拉伸、剪切实验测定复合板的力学性能,并分析其剪切断口.结果表明:采用两步组坯复合和工艺优化,多层复合板的轧制成材率达90%以上.多层复合板具有良好的结合界面,其抗剪强度达到241MPa.9Cr18和1Cr17镍中间层可以较为有效地阻碍界面附近的碳扩散并改善复合板的组织特征.","authors":[{"authorName":"余伟","id":"ccc75108-99a2-411e-aa38-4f66ffa99cf5","originalAuthorName":"余伟"},{"authorName":"王班","id":"4b171222-83ed-4855-82f3-9e3cc238fd31","originalAuthorName":"王班"},{"authorName":"贺婕","id":"3b74879f-ffd4-4dba-a2bb-b79707bef5ac","originalAuthorName":"贺婕"},{"authorName":"徐士新","id":"7a8cbf03-f051-4c5d-a394-9ce781b2915a","originalAuthorName":"徐士新"},{"authorName":"雷力齐","id":"bae41013-41a3-4a7b-ac25-36b53990f9bb","originalAuthorName":"雷力齐"}],"doi":"10.11868/j.issn.1001-4381.2015.000579","fpage":"32","id":"92d14e6b-4d69-4cc9-991b-e4d7ba92f35e","issue":"2","journal":{"abbrevTitle":"CLGC","coverImgSrc":"journal/img/cover/CLGC.jpg","id":"9","issnPpub":"1001-4381","publisherId":"CLGC","title":"材料工程"},"keywords":[{"id":"55785f46-ade0-4d68-a8d9-8c1f2b6f975b","keyword":"多层金属复合板","originalKeyword":"多层金属复合板"},{"id":"062e5dc2-e6b1-4b96-81d8-4a462dd96266","keyword":"热轧工艺","originalKeyword":"热轧工艺"},{"id":"f1d5bd93-558d-467c-b624-f113b17a4b95","keyword":"组织","originalKeyword":"组织"},{"id":"c6386da7-e499-42d8-a333-ca8aee35facf","keyword":"力学性能","originalKeyword":"力学性能"},{"id":"4455714c-756b-4d75-a335-037820371d41","keyword":"扩散","originalKeyword":"扩散"}],"language":"zh","publisherId":"clgc201702006","title":"多层金属复合板的热轧制备方法","volume":"45","year":"2017"},{"abstractinfo":"介绍了热压扩散结合法制备B/Al复合板材的工艺过程,研究了热压工艺参数对B/Al复合板材性能的影响,获得了热压扩散结合法制备B/Al复合板材比较理想的工艺参数,得到了拉伸强度σb=1 280 MPa、弹性模量E=233 GPa的B/Al复合板材.","authors":[{"authorName":"曾凡文","id":"3f34d2e2-ba57-4eba-a060-fa2588a8a79d","originalAuthorName":"曾凡文"},{"authorName":"张绪虎","id":"fc275e36-10d4-496c-97a6-0c7b45c8e978","originalAuthorName":"张绪虎"},{"authorName":"关盛勇","id":"f6aec371-5477-4c33-b52c-47f6b9f613c1","originalAuthorName":"关盛勇"},{"authorName":"胡欣华","id":"e307b1e5-9440-457f-848f-80fa72f42a17","originalAuthorName":"胡欣华"},{"authorName":"冯莉丽","id":"bf7ee687-6cec-4fc1-9781-d2f9b9785aae","originalAuthorName":"冯莉丽"}],"doi":"10.3969/j.issn.1007-2330.1999.04.006","fpage":"25","id":"7726e86b-1334-4418-8ac4-8a10514ff87d","issue":"4","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":"b974682b-f757-4b43-bb17-4b0c87e9d387","keyword":"B/Al复合材料","originalKeyword":"B/Al复合材料"},{"id":"013ad649-fce4-4d5e-89bd-1cdcbef6bbe6","keyword":"板材","originalKeyword":"板材"},{"id":"3d1ac120-4127-478c-8d86-b45d480ef1ac","keyword":"热压扩散结合法","originalKeyword":"热压扩散结合法"},{"id":"a63a47fd-8062-468c-8e8a-8475e74babb8","keyword":"力学性能","originalKeyword":"力学性能"}],"language":"zh","publisherId":"yhclgy199904006","title":"B/Al复合板材复合工艺的研究","volume":"29","year":"1999"},{"abstractinfo":"<正> 近十年来,化工和造船等工业考虑到钛有优异的耐腐蚀性能,钢价廉而有一定的强度,已研究用爆炸技术,制成钛-钢复合板材,并在加工工艺特别是焊接工艺取得进展后,试用于制造各种耐蚀设备。节约钛材,降低成本。爆炸复合工艺的影响因素多,如炸药种类与其单位面积上的用药量、初始安装角度和间隙、保护缓冲层的选择等。我们研制钛-钢复合板,曾对这些影响进行过若干试验。为了获得表面质量好、结合面积率高、结合强度大的钛-钢复合板材,又进一步研究了加沥青保护缓冲层的问题。","authors":[{"authorName":"李正华","id":"07463860-ca3a-44b9-a66d-935085da718a","originalAuthorName":"李正华"}],"categoryName":"|","doi":"","fpage":"72","id":"77a815e9-d9ca-4d8f-be14-562cd694af5c","issue":"1","journal":{"abbrevTitle":"JSXB","coverImgSrc":"journal/img/cover/JSXB.jpg","id":"48","issnPpub":"0412-1961","publisherId":"JSXB","title":"金属学报"},"keywords":[],"language":"zh","publisherId":"0412-1961_1974_1_6","title":"钛-钢爆炸复合板","volume":"10","year":"1974"},{"abstractinfo":"介绍了有关层状金属复合板的研究和生产现状. 爆炸焊接、轧制、爆炸+轧制复合法是目前3种主要的层状金属复合板的生产方法. 其中, 爆炸复合法在生产中应用最为广泛, 异步轧制是一种具有很大发展潜力的轧制复合工艺, 对于生产薄的复合板带材爆炸+轧制复合法具有明显的优势. ","authors":[{"authorName":"马志新","id":"c4ecb493-15d9-4b4d-9c2a-478daaa1ece0","originalAuthorName":"马志新"},{"authorName":"胡捷","id":"e77b7b27-2780-4b2b-8f27-4ba3ef76cbac","originalAuthorName":"胡捷"},{"authorName":"李德富","id":"6e0efacd-b87f-4d66-820e-6a00b612f6de","originalAuthorName":"李德富"},{"authorName":"李彦利","id":"cdd26590-abf0-4206-812b-66f44b056161","originalAuthorName":"李彦利"}],"doi":"10.3969/j.issn.0258-7076.2003.06.030","fpage":"799","id":"f7d5c0e3-83a1-4fe0-8389-64df1d16a141","issue":"6","journal":{"abbrevTitle":"XYJS","coverImgSrc":"journal/img/cover/XYJS.jpg","id":"67","issnPpub":"0258-7076","publisherId":"XYJS","title":"稀有金属"},"keywords":[{"id":"0537d0c5-088f-491d-a4b4-3629160bf66b","keyword":"层状金属复合板","originalKeyword":"层状金属复合板"},{"id":"c6bc47d3-397b-4168-8953-462bd35b558d","keyword":"爆炸焊接","originalKeyword":"爆炸焊接"},{"id":"6a1410d1-0c61-4cde-8f0a-3474b5b7a994","keyword":"轧制复合","originalKeyword":"轧制复合"},{"id":"5b153aef-13bc-45eb-8ae9-19e47f4e721d","keyword":"爆炸+轧制","originalKeyword":"爆炸+轧制"}],"language":"zh","publisherId":"xyjs200306030","title":"层状金属复合板的研究和生产现状","volume":"27","year":"2003"}],"totalpage":3704,"totalrecord":37040}