Experimental and Simulation Study on Diamond Convex Surface Film

Duo Sheng Li; Dun Wen Zuo; Jian Yun Zhang; Wen Zhang Lu; Feng Xu; Ai Hua Zou; Xia Cui

doi:10.4028/www.scientific.net/KEM.431-432.351

Paper Titles

Experimental Study on the Effect of Cold Air Cutting on Cutting Temperature, Cutting Force and Tool Wear during Machinging of Cr12 Tool Steel
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Finite Element Simulation of Residual Stress on the Surface in the Cutting Considering Tool Flank Wear
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Analysis of Cutting-Press Compound Shaping Fin Structure
p.342

Surface Roughness Model for Helical Milling of Die-Steel Based on Response Surface Methodology
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Experimental and Simulation Study on Diamond Convex Surface Film
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A Novel 5-DOF NC Serial-Parallel Machine Tool and its Position Analysis
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Research on the Architecture of Networked Process Integration System for Windows Manufacturing
p.361

The Cutting Behavior of Diamond Coated Tool in Machining Al-20wt%Si Alloy
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Research of Gyroscopic Effects on the Stability of High Speed Milling
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HomeKey Engineering MaterialsKey Engineering Materials Vols. 431-432Experimental and Simulation Study on Diamond...

Experimental and Simulation Study on Diamond Convex Surface Film

Abstract:

Diamond convex surface films were synthesized on molybdenum substrate using DC plasma Jet CVD (DCPJCVD), and their microstructure and topography were characterized by those techniques such as X ray diffraction, Raman spectroscopy respectively. It showed that, when the substrate was pre-treated by polishing using successive micron diamond powder (about 30～3μm), diamond film was a polycrystalline texture and (111) faces were dominant. Raman spectrum shows that high quality diamond convex surface film was prepared successfully. Meantime, We used Finite element methods (FEM) to simulate the velocity, pressure and temperature fields of reaction chamber respectively, and it indicated that the distribution of the velocity, pressure fields were fluctuant, which had negative influence on diamond film, but the temperature fields is uniform, and it is an important factor to prepare high quality diamond convex surface film.

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Key Engineering Materials (Volumes 431-432)

Pages:

351-354

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.431-432.351

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Online since:

March 2010

Authors:

Duo Sheng Li, Dun Wen Zuo, Jian Yun Zhang, Wen Zhang Lu, Feng Xu, Ai Hua Zou, Xia Cui

Keywords:

Chemical Vapor Deposition (CVD), DC Plasma, Diamond Convex Surface Film, Finite Element (FE) Simulation

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