Design of Assembly Systems for Large-Scale Battery Cells
p.11
p.11
An Integrated Simulation Approach to the Development of Assembly System Components
p.19
p.19
Numerical Analysis of the Manufacturing Impact on Magnetic Stray Fields at Electromagnetic Actuators
p.27
p.27
Development of a Self-Learning, Automatic Parameterisation of an Aerodynamic Part Feeding System
p.34
p.34
Planning and Simulation of High-Voltage Energy Storage Assembly for Automotive Industry - from Scalable Product Concepts via Assembly Planning and Material Flow Simulation through to Web-Based Assembly Information
p.42
p.42
Micromachining of CP-Titanium on a Desktop Machine - Study on Bottom Surface Quality in Micro End Milling
p.53
p.53
Influence of Solid Contaminants in Metal Working Fluids on the Grinding Process
p.61
p.61
A High Resolution Surface Model for the Simulation of Honing Processes
p.69
p.69
Waterjet Turning of Titanium Alloys
p.77
p.77
Planning and Simulation of High-Voltage Energy Storage Assembly for Automotive Industry - from Scalable Product Concepts via Assembly Planning and Material Flow Simulation through to Web-Based Assembly Information
Abstract:
Driven by the demand for green mobility alternatives and the claim to reduce the carbon footprint, technologies for electric mobility are on the advance. Although the idea of using electricity as drive energy came up more than 150 years ago, a considerable potential of development still remains. The automotive industry is in the midst of a time of transition, in which business may change fundamentally in order to meet the upcoming conditions.
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Periodical:
Advanced Materials Research (Volume 769)
Pages:
42-49
Citation:
Online since:
September 2013
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Сopyright:
© 2013 Trans Tech Publications Ltd. All Rights Reserved
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