The Research on Penetration of New Annular MEFP

Tao Zhou; Zhong Hua Du; Li Li Song

doi:10.4028/www.scientific.net/AMR.887-888.1169

Paper Titles

Multi-Objective Optimization and Research of Hot Stamping Process Parameters
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Microstructure Analysis on GMAW Additive Manufacturing Parts Constrained by Electromagnetism
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Mini-Thixoforming of High-Alloyed CPM REX 121 Steel
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Characterization of Hot Deformation Behavior of Udimet720Li Superalloy Using Processing Map
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The Research on Penetration of New Annular MEFP
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Extracting Acoustic Emission Signal Feature of Grinding Processing
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Two-Step Identification of Instantaneous Cutting Force Coefficients and Cutter Runout
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Experimental Research of Workpiece Temperature in Orthogonal Turn-Milling Compound Machining
p.1184

Cutting Force Model for Heat Assisted Titanium Alloy Milling
p.1191

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 887-888The Research on Penetration of New Annular MEFP

The Research on Penetration of New Annular MEFP

Abstract:

According to the detonation wave collision theory, initiation from two ends of charge, the liner will close to the middle to form high velocity MEFP. The software Autodyn to be used to study the penetration capacity of a single Annular MEFP was studied. With increase of axis curvature radius, the ratio of length of width is decrease, the penetration capacity declined. It is partitioned hole into two parts which is formed gourd-shaped in the typical penetration. For equal liner and unequal liner, although the velocity of unequal liner is higher, the penetration capacity is weaker.

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Periodical:

Advanced Materials Research (Volumes 887-888)

Pages:

1169-1172

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.887-888.1169

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Online since:

February 2014

Authors:

Tao Zhou*, Zhong Hua Du, Li Li Song

Keywords:

Annular MEFP, Formation, Penetration

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* - Corresponding Author

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