A review on post processing techniques of additively manufactured metal parts for improving the material properties

被引:38
作者
Shiyas, K. A. [1 ]
Ramanujam, R. [1 ]
机构
[1] Vellore Inst Technol, Sch Mech Engn, Vellore 632014, Tamil Nadu, India
关键词
Post processing of additively manufactured; metals; Heat treatment and HIP; Shot peening; Friction stir processing; Abrasive flow machining; Laser shock peening; RESIDUAL-STRESS; MECHANICAL-PROPERTIES; HEAT-TREATMENT; FATIGUE PERFORMANCE; SURFACE-ROUGHNESS; ALSI10MG ALLOY; TI6AL4V ALLOY; LASER; MICROSTRUCTURE; ELECTRON;
D O I
10.1016/j.matpr.2021.03.016
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Metal additive manufacturing (AM) processes are used to produce metal parts with greater design freedom and no material wastage from a CAD model, using powder or wire as feedstock with a layer by layer joining of materials by a high intensity energy source such as laser or electron beam. These processes include selective laser melting (SLM), electron beam melting (EBM) and wire arc additive manufacturing (WAAM) techniques which has wide usage in fabricating metal alloys such as aluminum and titanium for the aerospace and automotive applications. However, these AM parts show many limitations in the as built state like poor surface finish and high tensile residual stress, which will affect the mechanical properties and surface integrity because of the usage of high intensity energy-based melting for the fabrication of parts. This give rise to the need for post processing techniques such as heat treatment and additional machining and polishing operations such as shot peening (SP), laser shock peening (LSP), abrasive flow machining(AFM), friction stir processing (FSP) and hot isostatic pressing (HIP) to improve its surface finish, fatigue life and other material properties. This review paper aims to understand the defects of as built AM parts and focus on the post processing techniques employed by the researchers and its effects on the improvement of AM components. (c) 2021 Elsevier Ltd. All rights reserved. Selection and peer-review under responsibility of the scientific committee of the 28th International Conference on Processing and Fabrication of Advanced Materials.
引用
收藏
页码:1429 / 1436
页数:8
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共 67 条
  • [21] Laser peening: A tool for additive manufacturing post-processing[J]. Hackel, Lloyd;Rankin, Jon R.;Rubenchik, Alexander;King, Wayne E.;Matthews, Manyalibo. ADDITIVE MANUFACTURING, 2018
  • [22] Additive manufacturing of metals[J]. Herzog, Dirk;Seyda, Vanessa;Wycisk, Eric;Emmelmann, Claus. ACTA MATERIALIA, 2016
  • [23] Control of residual stress and distortion in aluminium wire plus arc additive manufacture with rolling[J]. Honnige, J. R.;Colegrove, P. A.;Ganguly, S.;Eimer, E.;Kabra, S.;Williams, S. ADDITIVE MANUFACTURING, 2018
  • [24] Additive manufacturing using WAAM with AA5183 wire[J]. Horgar, A.;Fostervoll, H.;Nyhus, B.;Ren, X.;Eriksson, M.;Akselsen, O. M. JOURNAL OF MATERIALS PROCESSING TECHNOLOGY, 2018
  • [25] Ductilization of selective laser melted Ti6Al4V alloy by friction stir processing[J]. Huang, Chunjie;Yan, Xingchen;Zhao, Lv;Liu, Min;Ma, Wenyou;Wang, Weibing;Soete, Jeroen;Simer, Aude. MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING, 2019
  • [26] Laser shock peening: A promising tool for tailoring metallic microstructures in selective laser melting[J]. Kalentics, N.;Huang, K.;de Seijas, M. Ortega Varela;Burn, A.;Romano, V.;Loge, R. E. JOURNAL OF MATERIALS PROCESSING TECHNOLOGY, 2019
  • [27] Tailoring residual stress profile of Selective Laser Melted parts by Laser Shock Peening[J]. Kalentics, Nikola;Boillat, Eric;Peyre, Patrice;Ciric-Kostic, Snezana;Bogojevic, Nebojsa;Loge, Roland E. ADDITIVE MANUFACTURING, 2017
  • [28] 3D Laser Shock Peening - A new method for the 3D control of residual stresses in Selective Laser Melting[J]. Kalentics, Nikola;Boillat, Eric;Peyre, Patrice;Gorny, Cyril;Kenel, Christoph;Leinenbach, Christian;Jhabvala, Jamasp;Loge, Roland E. MATERIALS & DESIGN, 2017
  • [29] Development of a magnetically driven abrasive polishing process for additively manufactured copper structures[J]. Karakurt, Ilbey;Ho, Kong Yin;Ledford, Christopher;Gamzina, Diana;Horn, Timothy;Luhmann, Neville C.;Lin, Liwei. 46TH SME NORTH AMERICAN MANUFACTURING RESEARCH CONFERENCE, NAMRC 46, 2018
  • [30] Influence of process parameters on the quality of aluminium alloy EN AW 7075 using selective laser melting (SLM)[J]. Kaufmann, N.;Imran, M.;Wischeropp, T. M.;Emmelmann, C.;Siddique, S.;Walther, F. LASER ASSISTED NET SHAPE ENGINEERING 9 INTERNATIONAL CONFERENCE ON PHOTONIC TECHNOLOGIES PROCEEDINGS OF THE LANE 2016, 2016