Your search keyword '"Mi Xiao"' showing total 10 results

1. DOE-Based Numerical Investigation on Factors Affecting Temperature Field during Line Heating

Author

Mi Xiao, Zhi Hui Yao, Liang Gao, and Lei Yang

Subjects

Engineering, Field (physics), business.industry, Design of experiments, Flow (psychology), General Engineering, Fractional factorial design, Mechanical engineering, Mechanics, Deformation (meteorology), Finite element method, Stress field, Thermal, business

Abstract

Line heating is a complex thermal-mechanical process as many factors affect the final shape of a processed plate. Generally, the temperature field of the processed plate determines the stress field and strain field. To predict the deformation of the processed plate, this paper investigates the effects of different factors on the temperature field during line heating by using design of experiment (DOE). Firstly, a three dimensional thermal elasto-plastic finite element method (FEM) is developed to calculate the temperature field induced by the single-pass oxygen-acetylene line heating. Secondly, the temperature field is analyzed by using fractional factorial design, in which the maximum temperature is selected as the response, and a fishbone diagram is used to overview all influencing factors. After performing a series of numerical experiments selected by using an ortho-gonal array, three main influencing factors are screened out: plate thickness, flow of acetylene and velocity of heat source. Next, the main effects of these factors are discussed. Finally, analytical re-sults indicate that there exist interaction effects among the three main influencing factors. This in-vestigation demonstrates that DOE is an efficient method for study of the temperature field during line heating.

Published

2011

2. A Model for Predicting the Failure Behavior of Bimodal Nanocrystalline Materials

Author

Tian, Song Feng, primary, Yu, Hong Jian, additional, Liu, Ying Guang, additional, Ju, Rong Yuan, additional, Mi, Xiao Dong, additional, and Peng, Xiu Lei, additional

Published

2014

3. Research Based on CFD for Helical Intake Port Position Defect of Diesel Engines

Author

Mi, Xiao, primary

Published

2014

4. Effect of Grain Size on the Fracture Toughness of Bimodal Nanocrystalline Materials

Author

Liu, Ying Guang, primary, Mi, Xiao Dong, additional, and Tian, Song Feng, additional

Published

2014

5. Voltage Stability Analysis of Islanded Microgrid

Author

Qin, Wen Ping, primary, Dong, Dong, additional, and Mi, Xiao Dong, additional

Published

2013

6. Structure and Optical Properties of Mg0.5Zn0.5O Films

Author

Liu, Quan Sheng, primary, Zhang, Xi Yan, additional, Wang, Xiao Chun, additional, Bai, Zhao Hui, additional, Wang, Neng Li, additional, Mi, Xiao Yun, additional, Lu, Li Ping, additional, and Yuan, Dong Fang, additional

Published

2011

7. Properties of Hexagonal Wurtzite Mg0.33Zn0.67O Films on Quartz Glass Substrates

Author

Liu, Quan Sheng, primary, Zhang, Xi Yan, additional, Wang, Xiao Chun, additional, Bai, Zhao Hui, additional, Wang, Neng Li, additional, Mi, Xiao Yun, additional, Lu, Li Ping, additional, and Yuan, Dong Fang, additional

Published

2011

8. Research on the Supporting Technology for Design, Process and Manufacturing Integration

Author

Mi, Xiao Zhen, primary, Zhai, Feng Xiang, additional, and Zhao, Wen Zhong, additional

Published

2010

9. Properties of Hexagonal Wurtzite Mg0.33Zn0.67O Films on Quartz Glass Substrates

Author

Liu, Quan Sheng, Zhang, Xi Yan, Wang, Xiao Chun, Bai, Zhao Hui, Wang, Neng Li, Mi, Xiao Yun, Lu, Li Ping, and Yuan, Dong Fang

Abstract

Mg0.33Zn0.67Ofilms were prepared on quartz glass substrates by Sol-Gel method. Structures and optical properties of Mg0.33Zn0.67Ofilms were studied. The results of XRD analysis indicates that the Mg0.33Zn0.67Ofilm is hexagonal wurtzite structure and the lattice constants a and c are 0.3265nm and 0.5218 nm respectively. Lattice constants a and c of the Mg0.33Zn0.67O film increased because of the addition of Mg. The image of SEM shows that the Mg0.33Zn0.67O film is homogeneous and its average grain size is about 40nm. The absorption spectrum of the sample reveals that the absorption edge of Mg0.33Zn0.67O film located at 312.3nm and the corresponding forbidden band width is 3.97eV. is by three peaks ，which located at 383.9nm，442.6nm and 532.9nm respectively，constitute the luminescence spectrum of the film. The excitation peak located at 379.9nm.

Published

2011

10. Structure and Optical Properties of Mg0.5Zn0.5O Films

Author

Liu, Quan Sheng, Zhang, Xi Yan, Wang, Xiao Chun, Bai, Zhao Hui, Wang, Neng Li, Mi, Xiao Yun, Lu, Li Ping, and Yuan, Dong Fang

Abstract

Mg0.5Zn0.5O films were prepared on quartz glass substrates by sol-gel method. Structure and optical properties of Mg0.5Zn0.5O film were studied.Results indicated that Mg0.5Zn0.5O film deposited on quartz glass is composed of two structures of ZnO hexagonal and MgO cubic. SEM image revealed that the film was homogenous and the average grain size of crystal was 40nm.Absorption spectrum indicated the absorption edge of hexagonal and cubic structures located in 332nm and 271nm respectively.The absorption edge of cubic structure locates in the solar blind region.The luminescence spectrum of sample is composed of three peaks at 383.7nm(3.23eV)，442.9nm(2.80eV) and 533.9nm(2.32eV) respectively.The peak of excitation spectrum is at 379nm(3.28eV).

Published

2011