Paper Title:
Kinematics Simulation of Vertical Flange Lathe with Double Machining Tools Based on Virtual Prototype Technology
  Abstract

To study the kinematic characteristics of a new designed flange vertical lathe with double machining tools, a virtual prototype model was developed in ADAMS with the help of PRO/E and MechPro, a seamless interface program between both mentioned software. And kinematic and dynamic simulations were carried out. The results of the simulations are consistent with the reality which states that the model was created correctly and the simulations were reliable.

  Info
Periodical
Chapter
Chapter 2: Simulation and Engineering Optimization
Edited by
Di Zheng, Yiqiang Wang, Yi-Min Deng, Aibing Yu and Weihua Li
Pages
302-305
DOI
10.4028/www.scientific.net/AMM.101-102.302
Citation
H. P. Xu, L. D. Wu, Y. Wang, L. Y. Li, "Kinematics Simulation of Vertical Flange Lathe with Double Machining Tools Based on Virtual Prototype Technology", Applied Mechanics and Materials, Vols. 101-102, pp. 302-305, 2012
Online since
September 2011
Export
Price
$32.00
Share

In order to see related information, you need to Login.

In order to see related information, you need to Login.

Authors: Xin Fan, Chun Hu
Chapter 4: Mechanical Engineering
Abstract:According to the national standard on electric vehicle model, pulse input test and random input test were conducted. The results show that:...
552
Authors: Bao Gui Wu, Shao Ping Li, Shu Fa Yan
Chapter 2: Applied Mechanics, Design and Manufacturing, Mechanical Engineering, Automation and Control
Abstract:Vehicle ride comfort determines vehicle performance, affects the ride comfort and reliability. Aimed at the problems in establishing the...
190
Authors: Yu Tian, Min Liu, Xiao Xi Xu
Chapter 1: Applied Mechanics and Dynamics, Mechanical Engineering, Manufacturing
Abstract:Constraints and a driving were imposed to the three-dimensional model of slider-crank mechanism of the Mechatronics Fitness and Entertainment...
213
Authors: Huai Dong Zhou, Peng Zhen, Wu Sheng Chou
Chapter 8: Robotics, Mechatronics and Control
Abstract:The Tri-prism deployable structure is a complex mechanism which consists of six deployable structure units in series. All deployable...
1183