Fabricating Soft Maganetic Composite by Using Selective Laser Sintering

被引:0
作者
Jhong, Kai Jyun
Lee, Wen Hsi
机构
来源
PROCEEDINGS 2016 IEEE INTERNATIONAL CONFERENCE ON INDUSTRIAL TECHNOLOGY (ICIT) | 2016年
关键词
Additive manufacturing; Selective Laser Sintering; soft magnetic; metal powders; SMC;
D O I
暂无
中图分类号
TP301 [理论、方法];
学科分类号
081202 ;
摘要
Selective Laser Sintering (SLS) is a powder-based additive manufacturing capable to produce parts layer by layer from a 3D CAD model. Currently there is a growing interest in industry for applying this technology for generating objects with high geometrical complexity. The aim of this study is to adopt the selective laser sintering techniques for soft magnetic powder sintering. When soft magnetic powder is sintered by the selective laser sintering techniques instead of compaction, we expect that the porosity of soft magnetic compound will be improved. Replace part of the soft magnetic silicon steel in the application of the motor of the magnetic.[1] Also part of the selective laser sintering method (SLS) the soft magnetic powder surface coating insulating layer. (SMC architecture)
引用
收藏
页码:1115 / 1118
页数:4
相关论文
共 50 条
  • [31] Forming properties measurement of nylon composite powder used in selective laser sintering
    Bai, PK
    Cheng, J
    Fang, ML
    ISTM/2005: 6th International Symposium on Test and Measurement, Vols 1-9, Conference Proceedings, 2005, : 3341 - 3344
  • [32] Study on process and parameter optimization of selective laser sintering of SiC composite powder
    Li, Jian
    Liang, Xiao
    Guo, Yanling
    Wang, Yangwei
    Guo, Shuai
    Bao, Jianxun
    Li, Wei
    PROCESSING AND APPLICATION OF CERAMICS, 2023, 17 (04) : 374 - 383
  • [33] ADVANCES IN SELECTIVE LASER SINTERING
    Kruth, J. P.
    Mercelis, P.
    Van Vaerenbergh, J.
    Froyen, L.
    Rombouts, M.
    PROCEEDINGS OF THE 1ST INTERNATIONAL CONFERENCE ON ADVANCED RESEARCH IN VIRTUAL AND RAPID PROTOTYPING, 2003, : 38 - 49
  • [34] Optimization of selective laser sintering process conditions using stable sintering region approach
    Lupone, F.
    Padovano, E.
    Pietroluongo, M.
    Giudice, S.
    Ostrovskaya, O.
    Badini, C.
    EXPRESS POLYMER LETTERS, 2021, 15 (02): : 177 - 192
  • [35] Development of filaments using selective laser sintering waste powder
    Kumar, Sanjay
    Czekanski, Aleksander
    JOURNAL OF CLEANER PRODUCTION, 2017, 165 : 1188 - 1196
  • [36] Optimizing selective laser sintering process by grey relational analysis and soft computing techniques
    Sohrabpoor, Hamed
    Negi, Sushant
    Shaiesteh, Hamed
    Ahad, InamUl
    Brabazon, Dermot
    OPTIK, 2018, 174 : 185 - 194
  • [37] Progress in selective laser sintering using metallic powders: a review
    Singh, S.
    Sharma, V. S.
    Sachdeva, A.
    MATERIALS SCIENCE AND TECHNOLOGY, 2016, 32 (08) : 760 - 772
  • [38] Fabrication of customized bioceramic implants using selective laser sintering
    Cruz, F
    Simoes, JFA
    Coole, TJ
    Bocking, C
    RAPID PROTOTYPING, TOOLING AND MANUFACTURING, 2002, : 63 - 70
  • [39] Selective laser sintering with heat of formation by using reactive materials
    Kamitani, T
    Yamada, O
    Marutani, Y
    1ST INTERNATIONAL SYMPOSIUM ON LASER PRECISION MICROFABRICATION, 2000, 4088 : 299 - 302
  • [40] Mechanical characterization of polyamide cellular structures fabricated using selective laser sintering technologies
    Cerardi, A.
    Caneri, M.
    Meneghello, R.
    Concheri, G.
    Ricotta, M.
    MATERIALS & DESIGN, 2013, 46 : 910 - 915