Advanced laser and processing technology for next-generation materials project

被引:0
作者
Matsumoto, Osamu
机构
来源
Seimitsu Kogaku Kaishi/Journal of the Japan Society for Precision Engineering | 2014年 / 80卷 / 01期
关键词
Additive manufacturing; CFRP; Fiber laser; High-power laser; Laser anneal; Laser diode; Laser processing; Laser sintering; Laser surface processing;
D O I
10.2493/jjspe.80.32
中图分类号
学科分类号
摘要
[No abstract available]
引用
收藏
页码:32 / 35
页数:3
相关论文
共 50 条
  • [31] Microwave-Enabled Wearables: Underpinning Technologies, Integration Platforms, and Next-Generation Roadmap
    Wagih, Mahmoud
    Balocchi, Leonardo
    Benassi, Francesca
    Carvalho, Nuno B.
    Chiao, Jung-Chih
    Correia, Ricardo
    Costanzo, Alessandra
    Cui, Yepu
    Georgiadou, Dimitra
    Gouveia, Carolina
    Grosinger, Jasmin
    Ho, John S.
    Hu, Kexin
    Komolafe, Abiodun
    Lemey, Sam
    Loss, Caroline
    Marrocco, Gaetano
    Mitcheson, Paul
    Palazzi, Valentina
    Panunzio, Nicoletta
    Paolini, Giacomo
    Pinho, Pedro
    Preishueber-Pflugl, Josef
    Qaragoez, Yasser
    Rahmani, Hamed
    Rogier, Hendrik
    Lopera, Jose Romero
    Roselli, Luca
    Schreurs, Dominique
    Tentzeris, Manos
    Tian, Xi
    Torah, Russel
    Torres, Ricardo
    Van Torre, Patrick
    Vital, Dieff
    Beeby, Steve
    IEEE JOURNAL OF MICROWAVES, 2023, 3 (01): : 193 - 226
  • [32] Review on design and structural optimisation in additive manufacturing: Towards next-generation lightweight structures
    Plocher, Janos
    Panesar, Ajit
    MATERIALS & DESIGN, 2019, 183
  • [33] How laser technology can contribute to foster a widespread use of advanced composite materials for light weight applications
    Jaeschke, Peter
    Wippo, Verena
    Bluemel, Sven
    Staehr, Richard
    Dittmar, Hagen
    Kuklik, Julian
    Bastick, Stefan
    Suttmann, Oliver
    Kaierle, Stefan
    HIGH-POWER LASER MATERIALS PROCESSING: APPLICATIONS, DIAGNOSTICS, AND SYSTEMS VIII, 2019, 10911
  • [34] Computer Science Integrations with Laser Processing for Advanced Solutions
    Murzin, Serguei P.
    PHOTONICS, 2024, 11 (11)
  • [35] Research of the Virtual Prototyping Technology Based on Laser Processing
    Wang, Zhijian
    Shang, Xiaofeng
    Wang, Xiaoyan
    E-ENGINEERING & DIGITAL ENTERPRISE TECHNOLOGY VII, PTS 1 AND 2, 2009, 16-19 : 871 - 875
  • [36] Overview of novel approaches for laser microfabrication of advanced materials
    Sugioka, K
    LASER-ASSISTED MICROTECHNOLOGY 2000, 2001, 4157 : 149 - 157
  • [37] Research Progress of Laser Processing Technology for Superhydrophobic Surface
    Sun X.
    Sun S.
    Wang J.
    Wang X.
    Zhang F.
    Zhang L.
    Jiang M.
    Wang P.
    Wang H.
    Chen X.
    Zhongguo Biaomian Gongcheng/China Surface Engineering, 2022, 35 (01): : 53 - 71
  • [38] Laser surface processing technology for performance enhancement of TENG
    Tian, Jia
    He, Yue
    Li, Fangpei
    Peng, Wenbo
    He, Yongning
    AIMS MATERIALS SCIENCE, 2025, 12 (01) : 1 - 22
  • [39] Next generation 3D Printing: The emergence of enabling materials
    Kotz, F.
    Arnold, K.
    Risch, P.
    Rapp, B. E.
    ADVANCED MANUFACTURING TECHNOLOGIES FOR MICRO- AND NANOSYSTEMS IN SECURITY AND DEFENCE, 2018, 10804
  • [40] Characterisation of Laser System Power Draws in Materials Processing
    Goffin, Nicholas
    Jones, Lewis C. R.
    Tyrer, John
    Ouyang, Jinglei
    Mativenga, Paul
    Woolley, Elliot
    JOURNAL OF MANUFACTURING AND MATERIALS PROCESSING, 2020, 4 (02):
12345