Your search keyword '"Jing Huizhe"' showing total 4 results

1. CREEP RELIABILITY ANALYSIS OF TURBINE BLISK BASED ON DUAL RESPONSE SURFACE METHOD

Author

ZHANG ChunYi, WANG AiHua, SUN Tian, JING HuiZhe, and LI ChengWei

Subjects

Reliability analysis, Turbine blisk, Creep, Dual response surface method, Linkage sampling, Mechanical engineering and machinery, TJ1-1570, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

To more accurately and effectively solve the problem of comprehensive reliability of multi-failure mode with the thermal creep, dual response surface method（DRSM） was adopted to implement the reliability of aero-engine turbine blisk. The numerical characteristics of the material parameters were obtained through the creep test data. The gas temperature, material density, elastic modulus and working rotation speed of the blisk structure were select as input variables. By constructing the finite element model of the blisk and the thermal-structural coupling analysis method, the stress and strain of turbine blisk were obtained. The mathematical model of dual response surface for stress and strain of turbine blisk was established by using the Latin hypercube small sampling technique. The comprehensive reliability analysis of the blisk was completed by using Monte Carlo method with linkage sampling of dual response surface model. The results indicate that the comprehensive reliability of blisk with thermal creep is 0.985 6. The comparison of method shows that dual response surface method can significantly improve computational efficiency without the loss of accuracy.

Published

2019

2. Reliability analysis of blade fatigue life based on fuzzy intelligent multiple extremum response surface method

Author

Sun Tian, Liu Baosheng, Jing Huizhe, Zhang Chunyi, Wang Ai-Hua, and Li Chengwei

Subjects

Physics::Fluid Dynamics, Surface (mathematics), 0209 industrial biotechnology, 020901 industrial engineering & automation, Blade (geometry), General Mathematics, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, 02 engineering and technology, Fuzzy logic, Reliability (statistics), Reliability engineering, Mathematics

Abstract

In order to more reasonable analyze the dynamic reliability of aero-engine blade with coupling failure mode. A fuzzy intelligent multiple extremum response surface method (FIMERSM) was proposed. Considering the coupling effect of temperature load and centrifugal load, the maximum stress point, the maximum strain point and the minimum life point on blade were found by deterministic analysis. Then, the density of blade, rotor speed, elastic modulus, blade-tip temperature, blade-root temperature, fatigue strength coefficient, fatigue strength exponent, fatigue ductility coefficient, fatigue ductility exponent, blade width, blade thickness, blade torsion angle, and blade height as input random variables. By using Latin hypercube sampling technique, the sample values of the input random variables were acquired and finite element basic equation was calculated for each samples which obtained the corresponding dynamic output response of their stress, strain, and low cycle fatigue life within the analysis time domain. By taking the entire maximum values of the dynamic output response in the analysis time domain as new output response, the fuzzy intelligent multiple extremum response surface function (FIMERSF) was established. Finally, the dynamic reliability of the blade structure were obtained by using the Monte Carlo method (MCM) large amount linkage sampling of the input random variables and take it into the FIMERSF to calculate the output response. The results imply that the comprehensive reliability of blade is 99.46%. Through the comparison of MCM, Multiple extremum response surface method (MERSM) and FIMERSM, the computational results show that the FIMERSM has high computational precision and computational efficiency.

Published

2018

3. Reliability-Based Low Fatigue Life Analysis of Turbine Blisk with Generalized Regression Extreme Neural Network Method

Author

Zhang, Chunyi, primary, Wei, Jingshan, additional, Jing, Huizhe, additional, Fei, Chengwei, additional, and Tang, Wenzhong, additional

Published

2019

4. Reliability Analysis for the Gear of Power Assisting Cycle with Multi-Extremum Response Surface Method

Author

Sun Tian, Zhang Chunyi, Wang Aihua, Li Chengwei, and Jing Huizhe

Subjects

Surface (mathematics), 0209 industrial biotechnology, Engineering, 020901 industrial engineering & automation, business.industry, 0502 economics and business, 05 social sciences, 02 engineering and technology, business, 050203 business & management, Reliability (statistics), Reliability engineering, Power (physics)

Published

2017