Development and Performance of New-Style Binder Used for TiH<sub>2</sub> Powder Injection Molding

XIAO Ping-an; ZHOU Wei; LIU Su-hong; XIAO Guang-zhi; LEI Bao; ZHANG Xiao-hu

Materials and Mechanical Engineering > 2012 > 36(1): 52-57.

XIAO Ping-an, ZHOU Wei, LIU Su-hong, XIAO Guang-zhi, LEI Bao, ZHANG Xiao-hu. Development and Performance of New-Style Binder Used for TiH₂ Powder Injection Molding[J]. Materials and Mechanical Engineering, 2012, 36(1): 52-57.

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Development and Performance of New-Style Binder Used for TiH₂ Powder Injection Molding

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Received Date: August 21, 2011

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A new-style wax-based binder was developed to use for TiH2 powder injection molding, the compatibility between binder components was calculated, and the rheological and debinding properties of the binder were analyzed. The results show that the compatibility between new-style binder components was good for mixing with TiH2 powders, and the loading of TiH2 powders was over 70vol%. Rheological performance of the binder was good and stable, its viscosity and viscosity fluid energy was 0.081 Pa·s and 36.85 kJ·mol-1 under the conditions of 160 ℃ and shear rate of 125 s-1. Compared with ordinary wax-based binder, the debinding ratio of new-style binder increased by 20%-30% during the same time when normal heptane was used for debinding under the same process conditions. Skim billets presented little flaws and good shape-holding. Compared with raw powders, the carbon content after thermal debinding increased by 0.02% only, and oxygen and nitrogen contents reduced.
- TiH2 powder injection molding,
- binder,
- rheological performance,
- debinding performance

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[1]	GERMAN R M.粉末注射成形[M].曲选辉, 译.长沙: 中南大学出版社, 2001.
[2]	FROES F H. Powder injection molding ( PIM) of titanium alloys ripe for expansion [J].Materials Technology, 2000, 15(4): 295-299.
[3]	FROES F H, GERMAN R M. Cost reductions prime Ti PIM for growth [J].Metal Powder Report, 2000, 55(6): 12-21.
[4]	吴引江. 粉末冶金先进材料的一些进展[J].稀有金属快报, 2002, 21(5): 6-10.
[5]	何世文, 欧阳鸿武, 刘咏. 制备钛合金件的粉末冶金新技术[J].粉末冶金工业, 2004, 14( 2): 35-38.
[6]	NYBERG E, MILLER M, SIMMONS K, et al. Microstructure and mechanical properties of titanium components fabricated by a new powder injection molding technique[J].Materials Science and Engineering C, 2005, 25: 336-342.
[7]	LEE S H. Effects of binder and thermal debinding parameters on residual carbon in injection molding of Nd(Fe, Co)B powder [J].Powder Metallurgy, 1999, 42(1): 41-44.
[8]	吴培熙, 张留城. 聚合物共混改性[M].天津: 中国轻工业出版社, 1994.
[9]	马德柱, 何平笙, 徐种德, 等. 高聚物的结构与性能[M].北京: 科学出版社, 1999.
[10]	何曼君. 高分子物理[M].上海: 复旦大学出版社, 1980.
[11]	GERMAN R M. Powder Injection Molding[M].Princeton: N J Metal Powder Industries Federation, 1990.
[12]	祝宝军, 曲选辉, 陶颖, 等. 粉末注射成形蜡基粘结剂溶剂脱粘行为[J]. 中南工业大学学报, 2001, 32(6): 599-603.

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Development and Performance of New-Style Binder Used for TiH₂ Powder Injection Molding