Computer-Aided Dynamic Analysis and Simulation of Multibody Manufacturing Systems

Yunn Lin Hwang; Jung Kuang Cheng; Van Thuan Truong

doi:10.4028/www.scientific.net/AMM.764-765.757

Paper Titles

Equivalent Circuit Construction of a Novel Ultrasonic Actuator
p.735

Fault Detection for an Aileron Actuator under Variable Conditions Based on Bi-Step Neural Network
p.740

Nonlinear Dynamic Characteristics of Magnetic Shape Memory Alloy Actuator
p.747

Indoor Map Building by Laser Sensor and Positioning Algorithms
p.752

Computer-Aided Dynamic Analysis and Simulation of Multibody Manufacturing Systems
p.757

Performance Degradation Prediction for a Hydraulic Servo System Based on Elman Network and Support Vector Regression
p.762

Development of an Unmanned Combat Vehicle with its Training System
p.768

A Cloud Multi-Tenant Architecture for Developing Machine Remote Monitoring Systems
p.775

A Method for Migrating Applications to Clouds
p.779

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 764-765Computer-Aided Dynamic Analysis and Simulation of...

Computer-Aided Dynamic Analysis and Simulation of Multibody Manufacturing Systems

Abstract:

This paper presents simulation of multibody manufacturing systems with the support of numerical tools. The dynamic and cybernetic characteristics of driving system are discussed. Simple prototype models of robot arm and machine tool’s driving system are quickly established in Computer Aided Design (CAD) software inwhich the whole specification of material, inertia and so on are involved. The prototypes therefore are simulated in RecurDyn- a Computer Aided Engineering (CAE) software. The models are driven by controllers built in Matlab/Simulink via co-simulation. The results are suitable with theory and able to exploied for expansion of complexly effective factors. The research indicates that dynamic analysis and control could be done via numerical method instead of directly dynamic equation creation for multibody manufacturing systems.

You might also be interested in these eBooks

Modern Design Technologies and Experiment for Advanced Manufacture and Industry

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volumes 764-765)

Pages:

757-761

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.764-765.757

Citation:

Cite this paper

Online since:

May 2015

Authors:

Yunn Lin Hwang*, Jung Kuang Cheng, Van Thuan Truong

Keywords:

Control, Dynamic Analysis, Multibody Systems

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] Stig Moberg: Modeling and Control of Flexible Manipulators, Ph. D Dissertations, LiU-Tryck, Linköping, Sweden. (2010).

Google Scholar

[2] Luo Haitao, Liu Yuwang, Chen Zhengcang, Leng Yuquan: Co-Simulation Control of Robot Arm Dynamics in ADAMS and Matlab, Research Journal of Applied Sciences, Engineering and Technology Volume 6, No. 20. (2013).

DOI: 10.19026/rjaset.6.3591

Google Scholar

[3] Hwang Yunn-Lin: A new approach for dynamic analysis of flexible manipulator systems, International Journal of Non-Linear Mechanics, Volume 40, Issue 6, pp.925-938. (2005).

DOI: 10.1016/j.ijnonlinmec.2004.12.001

Google Scholar

[4] Hwang Yunn-Lin: Recursive Newton-Euler formulation for flexible dynamic manufacturing analysis of open-loop robotic systems, The International Journal of Advanced Manufacturing Technology, Volume 29, Issue 5-6, pp.598-604. (2006).

DOI: 10.1007/s00170-005-2530-3

Google Scholar

[5] Hwang Yunn-Lin, Truong Van-Thuan: A New Approach for Dynamic Analysis and Control of Vertical CNC Machine Tool, accepted for publication in Journal of Chinese Society of Mechanical Engineers. (2014).

Google Scholar

[6] Shabana A. A.: Dynamics of Multibody System, John Wiley, New York. (1997).

Google Scholar

[7] FunctionBay Inc., RecurDyn/Solver Theoretical Manual. (2012).

Google Scholar

[8] Matlab/Simulink user functions, Information on http: /www. mathworks. com/. (2011).

Google Scholar

[9] Ogata K.: Modern Control Engineering, Fourth edition, Prentice Hall, New Jersey. (2002).

Google Scholar