Center for applied additive manufacturing-influence of process parameters during high-speed laser direct energy deposition

被引:0
|
作者
Greco S. [1 ]
Schmidt M. [1 ]
Kirsch B. [1 ]
Aurich J.C. [1 ]
机构
[1] Technische Universität Kaiserslautern Lehrstuhl für Fertigungstechnik und Betriebs organization, Gottlieb-Daimler-Str. Geb. 42, Kaiserslautern
来源
WT Werkstattstechnik | 2021年 / 111卷 / 06期
关键词
D O I
10.37544/1436-4980-2021-06-12
中图分类号
学科分类号
摘要
Additive manufacturing enables the near-net-shape production of complex geometries. The low productivity of established processes such as powder bed processes is currently limiting the economic use of additive manufacturing. High-speed laser direct energy deposition (HS LDED) is expected to improve the economic efficiency of additive manufacturing by significantly increasing deposition rates and thus previously unattained high productivity. © 2021, VDI Fachmedien GmBbH & Co.. All rights reserved.
引用
收藏
页码:368 / 371
页数:3
相关论文
共 50 条
  • [21] Direct observation of pore formation mechanisms during LPBF additive manufacturing process and high energy density laser welding
    Hojjatzadeh, S. Mohammad H.
    Parab, Niranjan D.
    Guo, Qilin
    Qu, Minglei
    Xiong, Lianghua
    Zhao, Cang
    Escano, Luis, I
    Fezzaa, Kamel
    Everhart, Wes
    Sun, Tao
    Chen, Lianyi
    INTERNATIONAL JOURNAL OF MACHINE TOOLS & MANUFACTURE, 2020, 153
  • [22] Manufacturing oxide-dispersion-strengthened steels using the advanced directed energy deposition process of high-speed laser cladding
    Markus B. Wilms
    Norbert Pirch
    Bilal Gökce
    Progress in Additive Manufacturing, 2023, 8 : 159 - 167
  • [23] Manufacturing oxide-dispersion-strengthened steels using the advanced directed energy deposition process of high-speed laser cladding
    Wilms, Markus B.
    Pirch, Norbert
    Goekce, Bilal
    PROGRESS IN ADDITIVE MANUFACTURING, 2023, 8 (02) : 159 - 167
  • [24] Advancement in Additive Manufacturing & Numerical Modelling Considerations of Direct Energy Deposition Process
    Zeng, Quanren
    Xu, Zhenhai
    Tian, Yankang
    Qin, Yi
    ADVANCES IN MANUFACTURING TECHNOLOGY XXX, 2016, 3 : 104 - 109
  • [25] High-speed video analyzes microcracking during additive manufacturing of tungsten
    Dyatkin, Boris
    MRS BULLETIN, 2020, 45 (09) : 686 - 686
  • [26] High-speed video analyzes microcracking during additive manufacturing of tungsten
    Boris Dyatkin
    MRS Bulletin, 2020, 45 : 686 - 686
  • [27] Formation mechanism of hump defects in high-speed laser wire additive manufacturing
    Huang, Wenhao
    Zhong, Haihui
    Li, Xiaoxu
    Jia, Yazhou
    Sun, Shiqi
    Wu, Na
    OPTICS AND LASER TECHNOLOGY, 2025, 183
  • [28] Influence of Laser Direct Energy Deposition Process Parameters on the Structure and Phase Composition of a High-Entropy Alloy FeCoNiCrMn
    Kovalenko, Ekaterina
    Krasanov, Igor
    Valdaytseva, Ekaterina
    Klimova-Korsmik, Olga
    Gushchina, Marina
    METALS, 2023, 13 (03)
  • [29] Reusable unit process life cycle inventory for manufacturing: high speed laser directed energy deposition
    Ehmsen, Svenja
    Yi, Li
    Glatt, Moritz
    Linke, Barbara S.
    Aurich, Jan C.
    PRODUCTION ENGINEERING-RESEARCH AND DEVELOPMENT, 2023, 17 (05): : 715 - 731
  • [30] Reusable unit process life cycle inventory for manufacturing: high speed laser directed energy deposition
    Svenja Ehmsen
    Li Yi
    Moritz Glatt
    Barbara S. Linke
    Jan C. Aurich
    Production Engineering, 2023, 17 : 715 - 731
12345