Technological Failures Research at Aluminum Parts Processing on Automatic Lathes
p.79
p.79
Computer Aided Measurement of Elastic Deformations of a Work Piece in the Turning Process
p.84
p.84
Cooling Capability of Cutting Fluids in Grinding
p.89
p.89
Basic Research for the UV Fixed Abrasive Lapping Plate
p.95
p.95
The Study of Elastic Strains of Parts from the Grinding Technological System
p.101
p.101
A Comparison between the Wear of the Ball Nose End Mill Generated in 4 Axes Milling and in 5 Axes Milling
p.106
p.106
Experimental Researches upon Changes of a Pipe's Roughness after Hydroformation
p.111
p.111
Functional Modeling of an Assembly Line Supplied in Synchronous
p.116
p.116
High Precision Rotary Table Used on Milling Machining Centres
p.121
p.121
The Study of Elastic Strains of Parts from the Grinding Technological System
Abstract:
In this paper we present the results of numerical simulation of the stiffness of gear grinding system using finite element method (FEM). Since the rigidity of system can be characterized by two aspects, one static and one dynamic. We will concentrate on the low stiffness of components inside the system to find errors that may affect the precision on the horizontal, vertical and rotational direction of technological system elements.
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Periodical:
Applied Mechanics and Materials (Volume 371)
Pages:
101-105
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Online since:
August 2013
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© 2013 Trans Tech Publications Ltd. All Rights Reserved
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