Paper Title:
Optimization Design of Φ355 Automatic Feed Mechanism Based on ADAMS
  Abstract

In this paper, the ADAMS Softwares is applied to the optimization design of the Φ355 automatic feed mechanism. After the optimization, the maximum and average lifting forces are reduced by 60.2% and 48.3% respectively. In addition, dramatic declines of 54.7% and 49.0% in the maximum and average propulsive forces are made, which saves energy significantly.

  Info
Periodical
Advanced Materials Research (Volumes 383-390)
Chapter
Chapter 22: Computer-Aided Engineering in Manufacturing
Edited by
Wu Fan
Pages
5830-5837
DOI
10.4028/www.scientific.net/AMR.383-390.5830
Citation
X. Y. Chai, X. F. Zhang, "Optimization Design of Φ355 Automatic Feed Mechanism Based on ADAMS", Advanced Materials Research, Vols. 383-390, pp. 5830-5837, 2012
Online since
November 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: Wei Wang, Jian Shi Yao, Guang Qi Cai
Abstract:In the grinding process of special spiral rods, the actual feed rate is far below the allowable limit, resulting in great efficiency waste....
118
Authors: Yan Guo, Qing Zhang, Xiang Qiang Bai, Shen Hong Pan
Abstract:The layered construction technique is the common method of large steel structures in the non-slide construction. In process of the former...
649
Authors: Li Yang Gu, Peng Han, Duo Nian Yu
Chapter 1: Composites
Abstract:In this paper, the traditional steel engine hood is analyzed using finite element method firstly, and then the basic performance requirements...
214
Authors: Long Ying Zhang, Liang Zong, Yuan Qing Wang, Jun Li
Chapter 5: Bridge and Road Engineering
Abstract:Loukouni bridge is a deck type arch bridge with box section which is a part from the second stage of the 1st national road project of the...
1665
Authors: Guang Qiu Yin, Shu He Zheng, Shu Wen Lin
Chapter 1: Parts of Machines and Mechanisms. Design, Analysis and Simulation
Abstract:On the base of explaining Multi-Objective Optimization Problems (MOOP) and Collaborative Optimization Techniques (COT), this paper puts...
390