Test and Analysis of Electric Arc Machining Characteristics of Titanium Alloy and High-Temperature Alloy

Hai Peng; Yang Zhai

doi:10.4028/www.scientific.net/KEM.667.123

Paper Titles

MD Simulation and Optimization Analysis for Nanoscale Material Removal Process
p.102

MD Simulations of Nanomachining Monocrystalline Silicon
p.108

Optimization Design of Diamond Circular Saw-Blade with Discontinuous Cutting and Uneven Distribution for Cutting Thin-Walled Tubes
p.114

Research and Modeling of Blades with Complex Surfaces Based on Laser Rapid Prototyping
p.119

Test and Analysis of Electric Arc Machining Characteristics of Titanium Alloy and High-Temperature Alloy
p.123

Research on Surface Quality for CBN Grinding Wheel Based on “Speed Effect”
p.130

Simulation and Experiment Study on Cutting Temperature in Diamond Ultra-Precision Cutting of Aluminum Alloy Mirror
p.136

Study on Influence Laws of Surface Roughness of Micro-Groove in Single Crystal Silicon under Diamond Fly-Cutting
p.142

Research on Error Model of the Al5052 Sheet Stamping Forming Parts
p.149

HomeKey Engineering MaterialsKey Engineering Materials Vol. 667Test and Analysis of Electric Arc Machining...

Test and Analysis of Electric Arc Machining Characteristics of Titanium Alloy and High-Temperature Alloy

Abstract:

The short electric arc machining technique is a new type of strong current processing method, which has many advantages, especially for difficult-to-machine materials, such as no cutting force, small cutting chips, easy to chip removal, high processing efficiency and so on. In this paper, the electric arc processing cutting performance of two typical difficult-to-machine materials, titanium alloy and high-temperature alloy, was studied by electric machining cutting experiment to analyze the influence of arc processing on the properties of materials. Using the designed electric arc machining system, the effect of electrical processing parameters on processing properties was discussed. Furthermore, the surface layer hardness and materials metallurgical structure were detected to study the change of material internal organization and the effects on material properties change, which provide the corresponding theoretical analysis basis for arc machining of difficult-to-machine materials. Experimental results show that the titanium alloy and high-temperature alloy have small heat affected zone and hardening layer after electric arc processing, which could meet the requirement of subsequent machining to obtain a good surface quality.