Performance Control Research of Oil Distribution Plate Parts by Laser Direct Rapid Forming Based on the Ultrasonic Vibration

Jian Bin Wang; Qing Sheng Zeng

doi:10.4028/www.scientific.net/AMM.423-426.951

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Numerical Simulation on Upsetting Process of Large Forgings
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Microstructure and Tribological Properties of Stellite21 Coating by Electro-Spark Deposition
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Dynamic Response Analysis of Butt Joint of HTS-A Steel Considering Welding Residual Stresses
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Performance Control Research of Oil Distribution Plate Parts by Laser Direct Rapid Forming Based on the Ultrasonic Vibration
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Study on a New Forming Method of the Honeycomb Semi-Cell Structures
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 423-426Performance Control Research of Oil Distribution...

Performance Control Research of Oil Distribution Plate Parts by Laser Direct Rapid Forming Based on the Ultrasonic Vibration

Abstract:

Aims at the performance of the oil distribution plate parts with laser direct rapid forming, and referring to the role of ultrasonic vibration in areas such as casting, welding, sintering etc. , and utilizing the neural networks and the genetic algorithm to optimize the process parameters, the article does the basic research of laser direct rapid forming distribution plate parts based on the ultrasonic vibration. The results indicates that this study can greatly enhance the wear resistance, the corrosion resistance and the fatigue properties etc. of the laser sintering distribution plate parts, having a good guidance to the practical production.

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Periodical:

Applied Mechanics and Materials (Volumes 423-426)

Pages:

951-954

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.423-426.951

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Online since:

September 2013

Authors:

Jian Bin Wang*, Qing Sheng Zeng

Keywords:

Laser Direct Rapid Forming, Parts Performance, Process Parameter Optimization, Ultrasonic Vibration

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* - Corresponding Author

References

[1] Lino Costa, Rui Vilar. Laser powder deposition. Rapid Prototyping Journal Vol. 15(4) (2009), p.264.

Google Scholar

[2] Kozhemyakin G N. Influence of ultrasonic vibration on the growth of inSb crystal. Journal of Crystal Growth Vol. 149 (1995), p.266.

DOI: 10.1016/0022-0248(94)00872-8

Google Scholar

[3] J.B. Wang,Y. Yang. Laser direct rapid forming of metal parts during the multi-channel overlap of theoretical and experimental study . Applied laser Vol. 28(2) (2008), p.124.

Google Scholar

[4] L.J. Chen. Mechanical optimization design with genetic algorithm. Beijing: Mechanical Industry Press(2006).

Google Scholar

[5] X.L. Min, G.H. Liu. Artificial neural networks combined with genetic algorithm in modeling and optimization. Computer Application Research Vol. 1(2002), p.79.

Google Scholar

[6] G.H. Liu, H. Bao, W.C. Li. Genetic algorithms using MATLAB implementation process. Computer Application Research, Vol. 10 (2001), p.80.

Google Scholar

[7] Q.L. Deng D.J. HU. Compact rapid forming laser sintering of metal parts of the pilot study [J]. Metal Heat Treatment Vol. 28(2) (2003), p.33.

Google Scholar

[8] C.F. Xue X.L. Tian S.Y. Dong. Direct laser sintering of metal parts of the pilot study [J]. Applied laser Vol. 23(3) (2003), p.130.

Google Scholar