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Volume 20 Issue 1
Jan.  2013
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Xin-lei Ni, Hai-qing Yin, Lin Liu, Shan-jie Yi,  and Xuan-hui Qu, Injection molding and debinding of micro gears fabricated by micro powder injection molding, Int. J. Miner. Metall. Mater., 20(2013), No. 1, pp. 82-87. https://doi.org/10.1007/s12613-013-0697-4
Cite this article as:
Xin-lei Ni, Hai-qing Yin, Lin Liu, Shan-jie Yi,  and Xuan-hui Qu, Injection molding and debinding of micro gears fabricated by micro powder injection molding, Int. J. Miner. Metall. Mater., 20(2013), No. 1, pp. 82-87. https://doi.org/10.1007/s12613-013-0697-4
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Injection molding and debinding of micro gears fabricated by micro powder injection molding

  • 通讯作者:

    Hai-qing Yin    E-mail: hqyin@ustb.edu.cn

  • Micro powder injection molding (μPIM) was investigated for possible mass production of micro-components at relatively low cost. However, scaling down to such a level produces challenges in injection molding and debinding. Micro gears were fabricated by μPIM from in-house feedstock. The effect of injection speed and injection pressure on the replication of the micro gear cavity was investigated. Solvent debinding and thermal debinding processes were discussed. The results show that micro gears can be successfully fabricated under the injection pressure of 70 MPa and the 60% injection speed. Either too low or too high injection speed can cause incomplete filling of micro gears. The same is the case with too low injection pressure. Too high injection pressure can bring cracks. Solvent debinding of micro gears was performed in a mixture of petroleum ether and ethanol. Subsequently, micro gears were successfully debound by a multistep heating schedule.
  • Injection molding and debinding of micro gears fabricated by micro powder injection molding

    + Author Affiliations
    • Micro powder injection molding (μPIM) was investigated for possible mass production of micro-components at relatively low cost. However, scaling down to such a level produces challenges in injection molding and debinding. Micro gears were fabricated by μPIM from in-house feedstock. The effect of injection speed and injection pressure on the replication of the micro gear cavity was investigated. Solvent debinding and thermal debinding processes were discussed. The results show that micro gears can be successfully fabricated under the injection pressure of 70 MPa and the 60% injection speed. Either too low or too high injection speed can cause incomplete filling of micro gears. The same is the case with too low injection pressure. Too high injection pressure can bring cracks. Solvent debinding of micro gears was performed in a mixture of petroleum ether and ethanol. Subsequently, micro gears were successfully debound by a multistep heating schedule.
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