Joining dissimilar metal of Ti and CoCrMo using directed energy deposition  被引量:1

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作  者:Vioni Dwi Sartika Won Seok Choi Gwanghyo Choi Jaewook Han Sung-Jin Chang Won-Seok Ko Blazej Grabowski Pyuck-Pa Choi 

机构地区:[1]Department of Materials Science and Engineering,Korea Advanced Institute of Science and Technology,Daejeon 34141,Republic of Korea [2]Gangwon Regional Division,Korea Institute of Industrial Technology,Gangwon 25440,Republic of Korea [3]Division of Measurement and Analysis,National Nanofab Center,Daejeon 34141,Republic of Korea [4]School of Materials Science and Engineering,University of Ulsan,Ulsan 44610,Republic of Korea [5]Institute for Materials Science,University of Stuttgart,Pfaffenwaldring 55,70569 Stuttgart,Germany

出  处:《Journal of Materials Science & Technology》2022年第16期99-110,共12页材料科学技术(英文版)

基  金:the support of the KAIST GCO_(2) RE(Global Center for Open Research with Enterprise)grant funded by the Ministry of Science and ICT(N11200010);National Research Foundation of Korea(NRF)[grant number NRF-2019R1A2C1002165]。

摘  要:We report laser cladding of pure titanium on a CoCrMo alloy using directed energy deposition.Using electron microscopy,the microstructural evolution upon varying the process parameters,especially laser power and powder feed rate,was investigated in relation to crack formation.Cladding layers showing dilution rates of more than 5%contained cracks due to the formation of the brittle Co_(2)Ti intermetallic phase.The observed cracks could be ascribed to a mismatch in thermal expansion and a resulting stress of more than 440 MPa acting on the Co_(2)Ti phase,as determined by density functional theory and nanoindentation.Furthermore,an excess laser energy caused chemical inhomogeneity and unmelted Ti powder particles,while a deficient laser energy resulted in a lack of fusion.Neither cracks nor partially melted powders were observed for a powder feed rate of 3 g/min and a laser power of 225–300 W,for which the dilution rate was minimized to less than 5%.For such samples,the cladding layers comprised pureα-Ti and a uniform CoT i interface with Co_(2)Ti islands.

关 键 词:Additive manufacturing Dissimilar metal joining TITANIUM Cobalt-based alloy 

分 类 号:TG495[金属学及工艺—焊接]

 

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