Wear Resistant Surface Composite Produced by Ultrasonic-Assisted Argon-Arc Clad Injecting Ti(C, N)

Ning Zhang; Shu Chen Wang; Xu Jiang; Shen Liang Qu; Hao Chen

doi:10.4028/www.scientific.net/AMR.1023.7

Paper Titles

Preface, Committee and Sponsors

Abrasive Resistance Study on WC Particles Reinforced Steel Matrix Composite of Engineering Machinery Equipment
p.3

Wear Resistant Surface Composite Produced by Ultrasonic-Assisted Argon-Arc Clad Injecting Ti(C, N)
p.7

Analyses of Polymer Passivation on the Surface Reflectivity of GaAs/AlGaAs Solar Cell
p.11

Molecular Simulation of Adsorption Mechanism of Silicone Rubber Interfacial Systems
p.15

Adaptability of Circle Equation Based Static Contact Angle Algorithms for Measuring Hydrophobicity of the Material Surface
p.19

The Application of Recycled Aggregate Concrete in Road Engineering
p.23

Mechanical Response Analysis of the Composite Asphalt Pavement
p.28

Thermal Conductivity of Cement Concrete Using Discrete Element Method
p.32

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 1023Wear Resistant Surface Composite Produced by...

Wear Resistant Surface Composite Produced by Ultrasonic-Assisted Argon-Arc Clad Injecting Ti(C, N)

Abstract:

This experiment was on the basis of the argon-arc clad injection technology, Ni60 self-fluxed alloy powder was coated on the surface of Q235 steel plate, then TiC, TiN, MoC and Co powder were sprayed by the modificated injection device, and at the same time the powder was vibrated by the ultrasonic-assisted vibration device self-designed. So the sprayed powder particles were smaller, shape was more regular, and distribution more uniform. The results show that the microhardness of composite coating was more than 5 times than that of the matrix, and the wear volume was about 1/5 than the matrix. The good combination, high strength and high wear resistance composite coating was obtained.

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Periodical:

Advanced Materials Research (Volume 1023)

Pages:

7-10

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.1023.7

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Online since:

August 2014

Authors:

Ning Zhang*, Shu Chen Wang, Xu Jiang, Shen Liang Qu, Hao Chen

Keywords:

Ti(C, N), Argon-Arc Clad Injection, Ultrasonic-Assisted, Wear Resistance

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* - Corresponding Author

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