Pengzhong LI

Work place: Sino-German School of Graduate Students, Tongji University, Shanghai, P.R. China

E-mail: leepz@tongji.edu.cn

Website:

Research Interests: Computational Science and Engineering, Engineering

Biography

Pengzhong LI (Kaifeng, China. April 1, 1968), graduated from Tongji University Shanghai on June 2004 and was awarded doctor degree of engineering. The major field is mechanical design, manufacturing and automation.
As an associate Professor of SinoGerman School of Graduate Students, he was financed by Chinese government or Cooperation Company and worked in Germany famous University Ruhr University Bochum and TU Berlin as visit scholar and research partner. Based on previous work of product performance simulation, now he is studying on impact of working environment on product action, main research work of NSFC project “Digital Mockup Based Key Technology of Tolerance Design and Its Impact Forecast”.

Author Articles
Prediction of Operating Loads Contribution to Assembly Relation and Product Behavior

By Pengzhong LI Weimin ZHANG Can CHEN

DOI: https://doi.org/10.5815/ijisa.2009.01.02, Pub. Date: 8 Oct. 2009

In the process of product manufacturing, control of assembly error will directly affect product operating behavior. When product running, operating loads will lead to change of assembly relation of product parts, affecting product behavior. Based on Jacobian-Torsor method, the Jacobian Torsor tolerance model, considering contribution of operating loads, was extended and corrected, the assembly error (assembly relation change) resulted from operating loads can be calculated. Variation of running behavior with assembly error was divided to three phases: compensation phase, rapid loss phase and total loss phase. Based on changing curve of product behavior, function of behavior loss was constructed to describe behavior loss resulting from assembly error of a part of product. The conception and calculating method of behavior loss index (BLI) are given to reflect behavior changing status of whole product under certain assembly accuracy. Combined with extended Jacobia -Torsor method, the calculated results can be used to predict product behavior change led by operating loads. The prediction can help to know next measurement adopted in product design phase. An example is given to demonstrate calculating procedure of given method.

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