Influence of Processing Parameters on Cobonding-Induced Deformation of Composite Panel with āIā-Shape Stiffener
p.341
p.341
Reasearch and Application of Basic Tundish Covering Flux in Continuous Casting Process in WISCO
p.346
p.346
Research on Dynamic Temperature Field Modeling of the Solid Carbide End Mill in High-Speed Milling
p.350
p.350
Research on Preparation of Heavy Calcium Carbonate Functional Filler with Mechanical Chemical Methods
p.354
p.354
Study of Laser Peening on TiAl Alloy Properties with Different Parameters
p.359
p.359
Study on Heat Treatment of Greenhouse Rolling Machine Gear Materials
p.365
p.365
Study on the Method of Heating Asphalt with Solar Energy
p.369
p.369
The Effects of Cutting Parameters on Work-Hardening of Milling Invar 36
p.373
p.373
Tool-Chip Friction and Two-Dimensional Numerical Simulation Analysis of High-Speed Milling AISI304
p.377
p.377
Tool-Chip Friction and Two-Dimensional Numerical Simulation Analysis of High-Speed Milling AISI304
Abstract:
The physical friction system model was established between the tool and the chip based on the analysis of tri-bological behavior of high speed milling process of the end mill. The finite element simulation method was employed to study the tool-chip friction model, and the two-dimensional(2D) finite element model of milling was created. The numerical results revealed the chip morphology, stress and temperature distribution of the tool-chip contact surface. The tool temperature field distribution provided supports for tool-chip friction state theory and the 3D milling model.
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Info:
Periodical:
Advanced Materials Research (Volume 1089)
Pages:
377-380
Citation:
Online since:
January 2015
Authors:
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