Experimental Study on Milling Force of High-Temperature Alloy GH536
p.1929
p.1929
Finite Element Simulation of Ultrasonic Vibration Orthogonal Cutting of Ti6Al4V
p.1933
p.1933
Friction Torque of Rotating Hydraulic Cylinder with Deep Circular Groove Oil Film Face Seal
p.1937
p.1937
Research on Precision Grinding System and Key Technology Based on PMAC-PC
p.1942
p.1942
Research on Chatter Suppression in Machining Thin-Walled Components Based on Rigidity Optimization
p.1947
p.1947
A Bioreactor for a Pulsatile Circulatory Culture System
p.1952
p.1952
Study on Metals Behavior Subjected to Cyclic Loading Based on Bauschinger Effect of Reversible Fine Machining Sequence
p.1956
p.1956
Analysis of Cutting Forces in Precision Turning Based on Oblique Cutting Model
p.1961
p.1961
A Technical Study of Hole Drilling in Ceramics/FRP Laminate Composite Components
p.1965
p.1965
Research on Chatter Suppression in Machining Thin-Walled Components Based on Rigidity Optimization
Abstract:
Precision machining of thin-walled complex components has been a serious challenge, and the machining errors are mainly due to cutting force which can induce tool-workpiece deformation and chatter vibration phenomenon. Based on the principle of stiffness optimization and material removal sequence optimization, rigidity of thin-walled component is greatly improved with non-uniform allowance distribution and spiral milling process techniques.
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Periodical:
Advanced Materials Research (Volumes 97-101)
Pages:
1947-1951
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Online since:
March 2010
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© 2010 Trans Tech Publications Ltd. All Rights Reserved
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