Influence of the Temperature and Mechanical Stresses Generated by Milling Process in Machined Part Surfaces on their Accuracy

Nicolae Catalin Tampu; Maria Crina Radu; Bogdan Chirita

doi:10.4028/www.scientific.net/AMM.371.59

Paper Titles

Study of the Uncut Chip in 5 Axes Ball Nose End Milling for the Third Quadrant of the Tool Inclination
p.37

Performance Analysis of a Layout of an Assembly Line Supplied Based on Stock or Synchronous
p.42

Experimental Design Methodology in Ball End Milling of C45 Material by Using Tool Tilt Angle - Analysis and Estimation of Surface Roughness Variation
p.48

Contributions on the Influence of the Cutting Parameters and Constructive Geometrical Parameters of the Tool on the Precision of the Worm Gears Manufactured Using Whirling Thread Cutting
p.54

Influence of the Temperature and Mechanical Stresses Generated by Milling Process in Machined Part Surfaces on their Accuracy
p.59

Mathematical Modeling of Thermocurrent Parameters for Roughness Assessment in Turning
p.64

Design of an Automatic Tool Changer System for Milling Machining Centers
p.69

V Prism Special for Centering Devices
p.74

Technological Failures Research at Aluminum Parts Processing on Automatic Lathes
p.79

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 371Influence of the Temperature and Mechanical...

Influence of the Temperature and Mechanical Stresses Generated by Milling Process in Machined Part Surfaces on their Accuracy

Abstract:

Surface generation by milling process involves the occurrence of some complex effects that affect surface quality. The most important effects of the milling on the generated surface are heating, plastic strain and residual stress. The aim of the present research is to analyze the influence of the work piece temperatures and residual stress distributions generated by milling in the machined surfaces on its accuracy. Two types of materials and different cutting parameters have been used in order to determine the above mentioned connection. The obtained results show that the temperature and residual stress generated by milling influences the surface deviations from flatness.

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Periodical:

Applied Mechanics and Materials (Volume 371)

Pages:

59-63

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.371.59

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Online since:

August 2013

Authors:

Nicolae Catalin Tampu, Maria Crina Radu, Bogdan Chirita

Keywords:

Cutting Speed, Milling, Residual Stress, Surface Deviations, Work Piece Temperature

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