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Online since: November 2011
Authors: Tirumalai S. Srivatsan, Manoj Gupta, C. Godbole, Muralidharan Paramsothy
Lavernia: Progress in Materials Science: An International Review Journal, Vol. 39, No. 4/5 (1995), pp. 317-409.
5.
Gupta: Materials Science and Engineering A , Vol. 466 (2007), pp. 32–37. 16.
Gupta: Journal of Materials Science ,Vol. 46 (2011), pp. 4588-4597. 17.
Cheng: Materials Science Technology, Vol. 15 (1999), pp. 1139-1146. 24.
Srivatsan: Journal of Recent Research Developments in Materials Science and Engineering, ISBN: 81-7895-057-X, pp. 119-136, 2002. 28.
Gupta: Materials Science and Engineering A , Vol. 466 (2007), pp. 32–37. 16.
Gupta: Journal of Materials Science ,Vol. 46 (2011), pp. 4588-4597. 17.
Cheng: Materials Science Technology, Vol. 15 (1999), pp. 1139-1146. 24.
Srivatsan: Journal of Recent Research Developments in Materials Science and Engineering, ISBN: 81-7895-057-X, pp. 119-136, 2002. 28.
Online since: October 2018
Authors: Liang Xu, Yi Bo Liu, You Hong Sun
With diamond particles, metal powders and a special soft material as raw materials, this paper introduced some diamond bits to drill the superhard materials such as granite.
Experimental Materials.(1) Metal powders By making appropriate adjustments of WC-based matrix component materials, different hardness of the matrix[3] will be achieved.
The adhesion of making pits material and matrix materials is weak, it is easy to fall off in the drilling process.
Han: Journal of Bionic Engineering, Vol. 1 (2004) No.1, p.9-10
Duan: Journal of Jilin University(Earth Science Edition), Vol. 34 (2004) No.3, p.484-485
Experimental Materials.(1) Metal powders By making appropriate adjustments of WC-based matrix component materials, different hardness of the matrix[3] will be achieved.
The adhesion of making pits material and matrix materials is weak, it is easy to fall off in the drilling process.
Han: Journal of Bionic Engineering, Vol. 1 (2004) No.1, p.9-10
Duan: Journal of Jilin University(Earth Science Edition), Vol. 34 (2004) No.3, p.484-485
Online since: July 2008
Authors: Emad A. Badawi, N.A. Kamel, M. Abdel-Rahman, Yahia A. Lotfy, M.A. Abdel-Rahman
Electrical measurements are one of
the oldest techniques also used in materials science.
The positron annihilation technique is one of the nuclear methods used in material science.
The advantages of this method are in the obtaining of both qualitative and quantitative data on defect behavior in materials.
The main assumption of the simple trapping model is that positrons annihilate in solid materials from a free or trapped state.
This model assumes that the positron exists in one of only two states in the materials, the free or Bloch state and the defect trapped state.
The positron annihilation technique is one of the nuclear methods used in material science.
The advantages of this method are in the obtaining of both qualitative and quantitative data on defect behavior in materials.
The main assumption of the simple trapping model is that positrons annihilate in solid materials from a free or trapped state.
This model assumes that the positron exists in one of only two states in the materials, the free or Bloch state and the defect trapped state.
Online since: September 2012
Authors: Aramcharoen Ampara, Kah Chuan Sean Shaw, Kui Liu
This technology has shown the capability to fabricate microfluidic devices from polymer materials in different and complex designs [2].
Workpiece materials were Polycarbonate (PC) and Polymethylmethacrylate (PMMA) as a major demand for microfluidic chip application.
Experiments were performed on PC and PMMA materials.
Yoshioka: Key Engineering Materials, Vol. 329 (2007), p. 577-582 [6] K.
Shibahara: Key Engineering Materials, Vol. 407-408 (2009), p. 351-354
Workpiece materials were Polycarbonate (PC) and Polymethylmethacrylate (PMMA) as a major demand for microfluidic chip application.
Experiments were performed on PC and PMMA materials.
Yoshioka: Key Engineering Materials, Vol. 329 (2007), p. 577-582 [6] K.
Shibahara: Key Engineering Materials, Vol. 407-408 (2009), p. 351-354
Online since: February 2019
Authors: Mandeep Singh, Anamul Hossain, Dong Bin Wei
Kumar, Effect of Thickness and Grain Size on Flow Stress of Very Thin Brass Sheets, Procedia Materials Science. 6 (2014), 154-160
Chan, Size effect on material surface deformation behavior in micro-forming process, Materials Science and Engineering: A. 13–14 (2011), 4799-4806
Eckstein, Microforming—from basic research to its realization, Journal of Materials Processing Technology. 125–126, (2002), 35-44
Shan, Size effect on friction in scaled-down strip drawing, Journal of Materials Science, journal article. 45, 15 (2010), 4067-4072
Ni, Material behavior modelling in micro/meso-scale forming process with considering size/scale effects, Computational Materials Science. 43, 4, (2008), 1003-1009
Chan, Size effect on material surface deformation behavior in micro-forming process, Materials Science and Engineering: A. 13–14 (2011), 4799-4806
Eckstein, Microforming—from basic research to its realization, Journal of Materials Processing Technology. 125–126, (2002), 35-44
Shan, Size effect on friction in scaled-down strip drawing, Journal of Materials Science, journal article. 45, 15 (2010), 4067-4072
Ni, Material behavior modelling in micro/meso-scale forming process with considering size/scale effects, Computational Materials Science. 43, 4, (2008), 1003-1009
Online since: September 2013
Authors: F. Alshmri
Yamagata, The Science and Technology of Materials in Automotive Engines.
Efi, "Precipitation Behaviour of Al Mg Si Alloys with High Silicon Content," Journal of Materials Science, vol. 32, pp. 1865-1902, 1997
Korevaar, "Al-20Si-Fe Osprey Preform and its Development During Subsequent Processing," Journal of Materials Science, vol. 26, pp. 5275-5291, 1991
Doty, "Effect of Solution Heat Treatment and Additives on the Microstructure of Al-Si (A413.1) Automotive Alloys," Journal of Materials Science, vol. 38, pp. 4507-4522, 2003
Rossi, "Mechanical and Microstructural Characterisation of Cylinder Liners," Materials Science Forum, vol. 416-418, pp. 407-412, 2003
Efi, "Precipitation Behaviour of Al Mg Si Alloys with High Silicon Content," Journal of Materials Science, vol. 32, pp. 1865-1902, 1997
Korevaar, "Al-20Si-Fe Osprey Preform and its Development During Subsequent Processing," Journal of Materials Science, vol. 26, pp. 5275-5291, 1991
Doty, "Effect of Solution Heat Treatment and Additives on the Microstructure of Al-Si (A413.1) Automotive Alloys," Journal of Materials Science, vol. 38, pp. 4507-4522, 2003
Rossi, "Mechanical and Microstructural Characterisation of Cylinder Liners," Materials Science Forum, vol. 416-418, pp. 407-412, 2003
Online since: March 2014
Authors: Chao Huang, Guo Yi Yan
Analysis of a Material Life Model
Huang Chao1,a*, Yan Guoyi2,b
1School of Water Resources and Hydropower Engineering, Wuhan University, P.R.China
1College of Mathematics and Statistics, Central China Normal University, P.R.China
2School of Sciences, Wuhan Institute of Technology, P.R.
Survival analysis, can be used to estimate the durability life of the material structure.
Finally, a parameter estimation of the material life model is obtained.
Introduction Uncertainty due to random environment and material properties, material structure durability life is random, and the distribution function is completely unknown.
C., Analysis of accelerated hazard model, Journal of the American Statistical Association vol. 95(2000), 608-618
Survival analysis, can be used to estimate the durability life of the material structure.
Finally, a parameter estimation of the material life model is obtained.
Introduction Uncertainty due to random environment and material properties, material structure durability life is random, and the distribution function is completely unknown.
C., Analysis of accelerated hazard model, Journal of the American Statistical Association vol. 95(2000), 608-618
Online since: September 2015
Authors: Nazrul Idzham Kasim, Mohd Azam Musa, Noraishah Mohamad Noor, Mohd Irman Ibrahim, Wan Ahmad Najmuddin Wan Saidin
The multi metal materials bonding result shows that these materials bonded well to each other.
The materials are thus metallurgical bonded [2].
The study done for multi metal materials and the result shows these materials bonded well to each other.
Stucker, Multi-material bonding in ultrasonic consolidation, Rapid Prototyping Journal, Vol. 16 Iss: 3, 2010, pp. 180 – 188
Little, Mechanisms of ultrasonic joining of textile materials, International Journal of Clothing Science and Technology, Vol. 12 Iss: 5, 2000, pp. 331 – 350 [6] H.
The materials are thus metallurgical bonded [2].
The study done for multi metal materials and the result shows these materials bonded well to each other.
Stucker, Multi-material bonding in ultrasonic consolidation, Rapid Prototyping Journal, Vol. 16 Iss: 3, 2010, pp. 180 – 188
Little, Mechanisms of ultrasonic joining of textile materials, International Journal of Clothing Science and Technology, Vol. 12 Iss: 5, 2000, pp. 331 – 350 [6] H.
Online since: August 2011
Authors: Yong Qing Wang, Yu Chun Huang, Jian Zhang
Introduction
In modern society, scientific technologies progress with each passing day, and the people's standard of material and cultural life gets higher and higher.
[2] Fengling Xie, Study on Sport Prescription in National Physique Inspection System, Journal of Hebei Institute of Physical Education, Vol. 18, No. 3, 95-97, 2004
[4] Meizhen Xiong and Lude Wang, Research on Nationwide Fitness Programs Prescription and Software, Journal of GuangZhou Physical Education Institute, Vol. 25, No. 1, 61-66, 2005
[7] Zhibiao Liu and Shengnian Zhang, Research Situation of Physical Fitness Guidelines Software in China, Chinese Journal of Sports Medicine, Vol. 26, No. 1, 124-127, 2007
[9] Ye Tian and Yifan Lu, Physical Fitness Guidelines for Chinese People, CHINA SPORT SCIENCE, Vol. 30, No. 2, 3-10, 2010
[2] Fengling Xie, Study on Sport Prescription in National Physique Inspection System, Journal of Hebei Institute of Physical Education, Vol. 18, No. 3, 95-97, 2004
[4] Meizhen Xiong and Lude Wang, Research on Nationwide Fitness Programs Prescription and Software, Journal of GuangZhou Physical Education Institute, Vol. 25, No. 1, 61-66, 2005
[7] Zhibiao Liu and Shengnian Zhang, Research Situation of Physical Fitness Guidelines Software in China, Chinese Journal of Sports Medicine, Vol. 26, No. 1, 124-127, 2007
[9] Ye Tian and Yifan Lu, Physical Fitness Guidelines for Chinese People, CHINA SPORT SCIENCE, Vol. 30, No. 2, 3-10, 2010
Online since: October 2014
Authors: Kun Peng Wang, Wan Hong Zhang
Electrochemical performance of anode materials for lithium-ion power batteries
WanHong Zhang1,2,a, KunPeng Wang1,b
1 School of Materials Science and Engineering, Henan University of Science and Technology, Luoyang 471023, China
2 Collaborative Innovation Center of Nonferrous Metals, Henan Province, Luoyang 471023, China
azhangwh@haust.edu.cn, bwangkp@haust.edu.cn
Keywords: lithium-ion power battery; anode material; modification; electrochemical property; cyclic voltammetry
Abstract.
As an important part of lithium ion batteries, the anode materials play an important role in the performance of lithium ion power battery.
At present, the study of carbon anode materials is one of the most active areas of research for lithium ion battery[8,9].
In the present work, the anode materials were prepared by several typical modified processing method, and the electrochemical performance of Li-ion batteries with different anode materials were tested and analysed, by using cyclic voltammetry method, and the anode materials suitable to power battery was optimized. 1 Experimental 1.1 Experiment Principle Cyclic voltammetry or CV is a type of potentiodynamic electrochemical measurement.
Fergus: Journal of Power Sources Vol. 195(4) (2010), p. 939 [3] E.
As an important part of lithium ion batteries, the anode materials play an important role in the performance of lithium ion power battery.
At present, the study of carbon anode materials is one of the most active areas of research for lithium ion battery[8,9].
In the present work, the anode materials were prepared by several typical modified processing method, and the electrochemical performance of Li-ion batteries with different anode materials were tested and analysed, by using cyclic voltammetry method, and the anode materials suitable to power battery was optimized. 1 Experimental 1.1 Experiment Principle Cyclic voltammetry or CV is a type of potentiodynamic electrochemical measurement.
Fergus: Journal of Power Sources Vol. 195(4) (2010), p. 939 [3] E.