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Online since: September 2013
Authors: Yong Kang Chen, Ming Hua Chen, Xiao Le Wu, Tao Zhang
Introduction
Thermal performance is a very important property for energetic materials.
It’s widely used in the thermal analysis of energetic materials.
By analysing energetic material and the mixed system containing the energetic material and contact materials, or a energetic material mixed system and its components, obtain a mixed system and energetic materials decomposition peak temperatures.
[7]Wei Zhang, Hui Zhu, Jin-gen Xue: submitted to Energetic Materials(2000)
[8]Rong-zu Hu, Sheng-li Gao, Feng-qi Zhao et al, in: Thermal Kinetics, editied by Science Press, Beijing(2008)
It’s widely used in the thermal analysis of energetic materials.
By analysing energetic material and the mixed system containing the energetic material and contact materials, or a energetic material mixed system and its components, obtain a mixed system and energetic materials decomposition peak temperatures.
[7]Wei Zhang, Hui Zhu, Jin-gen Xue: submitted to Energetic Materials(2000)
[8]Rong-zu Hu, Sheng-li Gao, Feng-qi Zhao et al, in: Thermal Kinetics, editied by Science Press, Beijing(2008)
Online since: June 2012
Authors: Lian Zhong Zhang, Jing Min Li
Ultrasound technology widely used piezoelectric materials are artificial firing of polycrystalline piezoelectric ceramics.
Therefore, you can choose the reasonable tool material, the particle vibration in Figure 2-2 Elastic Rod45 steel is an ideal tool ultrasonic machining.Characteristics of ultrasonic machining (1) suitable for processing a variety of hard and brittle materials, especially non-conductive, non-gold scrap materials such as glass, ceramics (pot oxide, silicon nitride, etc.), quartz, germanium, silicon, graphite, agate, gemstones, diamond, etc. .
Figure 2-2 Particle vibration of elastic rod (2) because the tool can be used for softer materials.
Ultrasonic machining low productivity, but its machining accuracy, surface roughness are better, and processing semiconductors, non-conductive brittle materials .
polishing by UEV-CMP[J];Journal of Southeast University(Natural Science Edition);2008-05 [5]MA Qing-shan,XUAN Tian-peng,LIU Jin (College of Material Science and Engineering,Hefei University of Technology,Hefei 230009,China);Effect Factors of Silver Electroless Deposition Rate on Copper Powder[J];Plating & Finishing;2008-10 [6]YUE Jun,LIU Hun-ju(Taiyuan University of Technology,Taiyuan 030024,China);Rotary Ultrasonic Machining Method for Engineering Ceramics[J];Electronics Process Technology;2008-01 [7]CHEN Jie(Department of Mechanical and Electrical Engineering,Suzhou Vocational University,Suzhou 215104,China);Research on large diameter silicon surface grinding using ultrasonic float polishing[J];Journal of Liaoning Technical University(Natural Science);2008-03 [8]YANG Ke-ji,WU Jia-jie(Institute of Modern Manufacture Engineering,Zhejiang University,Hangzhou 310027,China);Study on micro-dissection technique based on ultrasonic vibration[J];Journal of Engineering Design;2009-01 [9]Xu
Therefore, you can choose the reasonable tool material, the particle vibration in Figure 2-2 Elastic Rod45 steel is an ideal tool ultrasonic machining.Characteristics of ultrasonic machining (1) suitable for processing a variety of hard and brittle materials, especially non-conductive, non-gold scrap materials such as glass, ceramics (pot oxide, silicon nitride, etc.), quartz, germanium, silicon, graphite, agate, gemstones, diamond, etc. .
Figure 2-2 Particle vibration of elastic rod (2) because the tool can be used for softer materials.
Ultrasonic machining low productivity, but its machining accuracy, surface roughness are better, and processing semiconductors, non-conductive brittle materials .
polishing by UEV-CMP[J];Journal of Southeast University(Natural Science Edition);2008-05 [5]MA Qing-shan,XUAN Tian-peng,LIU Jin (College of Material Science and Engineering,Hefei University of Technology,Hefei 230009,China);Effect Factors of Silver Electroless Deposition Rate on Copper Powder[J];Plating & Finishing;2008-10 [6]YUE Jun,LIU Hun-ju(Taiyuan University of Technology,Taiyuan 030024,China);Rotary Ultrasonic Machining Method for Engineering Ceramics[J];Electronics Process Technology;2008-01 [7]CHEN Jie(Department of Mechanical and Electrical Engineering,Suzhou Vocational University,Suzhou 215104,China);Research on large diameter silicon surface grinding using ultrasonic float polishing[J];Journal of Liaoning Technical University(Natural Science);2008-03 [8]YANG Ke-ji,WU Jia-jie(Institute of Modern Manufacture Engineering,Zhejiang University,Hangzhou 310027,China);Study on micro-dissection technique based on ultrasonic vibration[J];Journal of Engineering Design;2009-01 [9]Xu
Online since: December 2012
Authors: Chang Mei Wang, Jing Liu, Wu Di Zhang, Fang Yin, Shi Qing Liu, Yu Bao Chen, Xing Lin Zhao
There were many papers had discussed the biogas fermentation [4, 5, 6] and energy conversion efficiency of biogas fermentation [7,8]on different materials.
MATERIALS AND METHODS A.
ACKNOWLEDGMENTS This work was supported by Yunnan Provincial Science and technology conditions platform project (2010DH012) funded.
Journal of Chin Med J Res Prac, 25(2)(2011)6-8
[10] XJ Wang, GK Zeng, SQ Liu, Study on Biogas Fermentation of Corncob,Anhui Agricultural Science Bulle, .12(200)55-57
MATERIALS AND METHODS A.
ACKNOWLEDGMENTS This work was supported by Yunnan Provincial Science and technology conditions platform project (2010DH012) funded.
Journal of Chin Med J Res Prac, 25(2)(2011)6-8
[10] XJ Wang, GK Zeng, SQ Liu, Study on Biogas Fermentation of Corncob,Anhui Agricultural Science Bulle, .12(200)55-57
Online since: August 2014
Authors: Hui Zhou, Shao Liang Yuan
Materials and Design Vol.27 (2006), p. 329-337
Materials and Design, Vol.47 (2013), p. 643-652
Materials and Design, Vol. 51 (2013), p.484-492
International Journal of Mechanics and Materials in Design, Vol. 3 (2006), p. 209-222
(Science Press, Beijing 2010)
Materials and Design, Vol.47 (2013), p. 643-652
Materials and Design, Vol. 51 (2013), p.484-492
International Journal of Mechanics and Materials in Design, Vol. 3 (2006), p. 209-222
(Science Press, Beijing 2010)
Online since: November 2006
Authors: Luboš Náhlík, Pavel Hutař, Zdeněk Knésl
Knésl1,c
1
Institute of Physics of Materials, Academy of Sciences of the Czech Republic, Žižkova 22,
616 62 Brno, Czech Republic
a
nahlik@ipm.cz , b
hutar@ipm.cz, c
knesl@ipm.cz
Keywords: bi-material interface, residual stress, plasticity-induced crack closure, critical stress.
Journal of Fracture, 12 (1976), p. 52
Journal of Fracture, 73 (1995), p. 1
Journal of Fracture, 48 (1991), p.
Science 28 (2003), p. 620
Journal of Fracture, 12 (1976), p. 52
Journal of Fracture, 73 (1995), p. 1
Journal of Fracture, 48 (1991), p.
Science 28 (2003), p. 620
Online since: November 2013
Authors: Xu Guang Chen, Yu Mei, Xin Zhang, Qiang Chen
And the materials used are called geomechanics similar material.
It’s mixed by sorts of materials.
The component of the materials can be divided into two kinds: aggregate and cementing material.
The proportion of materials should be decided by the prototype researched on.
Journal of Liaoning Technical University:Natural Science,2007,26(2):204–206.
It’s mixed by sorts of materials.
The component of the materials can be divided into two kinds: aggregate and cementing material.
The proportion of materials should be decided by the prototype researched on.
Journal of Liaoning Technical University:Natural Science,2007,26(2):204–206.
Online since: January 2013
Authors: Rong Guo, Wei Xian Xue
At present, there are four key kinds of new energy materials such as solar photovoltaic materials, semiconductor materials, wind power materials, biomass new energy materials[2].
Acknowledgement: Thanks for National Natural Science Foundation of China.
Geographical Journal Vol. 68 (2007), p. 19-29
The Electronic Journal on Information Systems in Developing Countries Vol. 6 (2009), p. 1-12
Social Science Quarterly Vol. 1 (2006), p. 190-207
Acknowledgement: Thanks for National Natural Science Foundation of China.
Geographical Journal Vol. 68 (2007), p. 19-29
The Electronic Journal on Information Systems in Developing Countries Vol. 6 (2009), p. 1-12
Social Science Quarterly Vol. 1 (2006), p. 190-207
Online since: January 2012
Authors: Yong Hui Zhou, Xing Ai, Jun Zhao, Min Wang
Raabe: Computational Materials Science.
Raabe, Hantcherlil: Computational Materials Science Vol. 34(2005), p. 299-313 [8] H.
Sahay: Materials Science and Engineering A Vol. 203(2007), p. 445-446 [14]I.
Sietsma: Computational Materials Science Vol. 50(2011), p. 1846-1853 [17] S.
Wolf: Computational Materials Science Vol. 50(2011), p. 949-959 [19] L.
Raabe, Hantcherlil: Computational Materials Science Vol. 34(2005), p. 299-313 [8] H.
Sahay: Materials Science and Engineering A Vol. 203(2007), p. 445-446 [14]I.
Sietsma: Computational Materials Science Vol. 50(2011), p. 1846-1853 [17] S.
Wolf: Computational Materials Science Vol. 50(2011), p. 949-959 [19] L.
Online since: February 2011
Authors: Tao Chi, Zhong Fu Wang
The maximum stress points occur at the transition of the crank arm and main journal.
Analysis for Affecting Fatigue Strength of Diesel Engine in Science Edition of West China University Journals.
Influence of Crankshaft Strength Using the Boundary Conditions of Finite Element Method in Anqing Teachers College Journals (Natural Science) (2006) [5] Z.
Science Press (2006) [7] Editorial Board of Diesel Engine Design Manual.
Infinite Element Analysis of G170 Diesel Engine Crankshaft in Guangxi University (Natural Science), (2000), 25 (2): 101-104 [9] L.
Analysis for Affecting Fatigue Strength of Diesel Engine in Science Edition of West China University Journals.
Influence of Crankshaft Strength Using the Boundary Conditions of Finite Element Method in Anqing Teachers College Journals (Natural Science) (2006) [5] Z.
Science Press (2006) [7] Editorial Board of Diesel Engine Design Manual.
Infinite Element Analysis of G170 Diesel Engine Crankshaft in Guangxi University (Natural Science), (2000), 25 (2): 101-104 [9] L.
Online since: May 2011
Authors: Zhen Yang, Shi Qun Guo
Fundamental solutions of a normal force in semi-infinite coating materials.
Part II: solution of force acting in the interior of substrate and at interface Zhen Yanga, Shiqun Guob School of Civil Engineering & Architecture, Southwest University of Science and Technology, China araineryoung@gmail.com, banovabb@yahoo.com.cn Keywords: Coating Materials, Interface, Fundamental Solution, Image Point Method Abstract.
Introduction There are many applications of film-coated materials in the engineering to improve the surface properties.
Since there is no singular point except the loading point in the materials, the functions and of material “I” and “II” shall not contain the terms related to the image points located in their own domains.
Mutoh: Journal of Elasticity, Vol. 73(2003): p. 147-164
Part II: solution of force acting in the interior of substrate and at interface Zhen Yanga, Shiqun Guob School of Civil Engineering & Architecture, Southwest University of Science and Technology, China araineryoung@gmail.com, banovabb@yahoo.com.cn Keywords: Coating Materials, Interface, Fundamental Solution, Image Point Method Abstract.
Introduction There are many applications of film-coated materials in the engineering to improve the surface properties.
Since there is no singular point except the loading point in the materials, the functions and of material “I” and “II” shall not contain the terms related to the image points located in their own domains.
Mutoh: Journal of Elasticity, Vol. 73(2003): p. 147-164