2024 Powder Metallurgy World Congress & Exhibition

Presentation information

General Sessions (Oral) » T9 Innovative Technology

[T9] Innovative Technology

Oral

Thu. Oct 17, 2024 9:00 AM - 10:00 AM Room E (3F 313+314, Conference Center)

Chairpersons: Kenji Doi (Osaka Yakin Kogyo Co., Ltd., Japan), Anchalee Manonukul (National Metal and Materials Technology Center, Thailand)

9:00 AM - 9:20 AM

[17E-T9-01] Development and Application of Micro-metal Injection Molding (μ-MIM) Process for Mass Production of Complex Micro Parts

*L. Chen1, T. Li2 (1.Dou Yee Technologies, Singapore, 2.Singapore Institute of Manufacturing Technology, Singapore)

Keywords:Micro-MIM, binder system, micro-parts

With the widespread trend in industry towards greater miniaturization, precision metal micro-parts are gaining importance. The successful fabrication and operation of micro-components provide opportunity to produce miniaturized machines and mechanical systems. Further commercialization of the microsystem technology requires cost effective microfabrication methods for mass production of micro-metal parts. Micro-metal injection molding (μ-MIM) is considered a promising process for high-volume, low-cost production of micro components especially with complex geometries. However, there are some limitations to apply conventional MIM feedstock to μ-MIM, such as incomplete filling of die cavity, powder-binder separation, insufficient demolding strength, low sintering density and dimension instability. In this paper, the development of new binder system and feedstock formulation with micro-sized 17-4PH stainless steel powders, optimization of injection molding, debinding and sintering steps to achieve stable geometry, dimension and microstructure is reported. The capability of μ-MIM is demonstrated by manufacturing high precision micro-gears and micro-hinge capture in DYT.