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Online since: May 2016
Edited by: Sooraj Hussain Nandyala
This volume of the periodical includes papers which describe:
- application of biomimetic approach in design of modern robots;
- applied research in the biomechanics of human
- utilization of modern materials in biomedicine;
- application of different techniques of modeling, measurement and modern IT technologies in the biomedical practice.
We hope that this periodical will be useful for many researchers and engineers from different branches of engineering sciences.
- application of biomimetic approach in design of modern robots;
- applied research in the biomechanics of human
- utilization of modern materials in biomedicine;
- application of different techniques of modeling, measurement and modern IT technologies in the biomedical practice.
We hope that this periodical will be useful for many researchers and engineers from different branches of engineering sciences.
Online since: January 2010
Authors: P. Jozwik, R. Grabowski, Z. Bojar
For
materials obtained according to this method, the authors confirmed good catalytic properties in
methanol decomposition [5,6].
This probably results in better catalytic properties for the nanocrystalline materials.
Bojar: Archives of Metallurgy and Materials (2007), 52, 321-327
Dumesic: Science (2003), 300, 2075-2077
Jensen: Chemical Engineering Science (2001), 56, 293-303
This probably results in better catalytic properties for the nanocrystalline materials.
Bojar: Archives of Metallurgy and Materials (2007), 52, 321-327
Dumesic: Science (2003), 300, 2075-2077
Jensen: Chemical Engineering Science (2001), 56, 293-303
Online since: January 2011
Authors: Yong Kang Zhang, Ming Yang Chen, Be Yuan, Chun Mei Meng, Hong Bing Yao, Yan Qun Tong
Chinese Journal of Lasers.
Chinese Journal of Lasers.
Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science.
Journal of Applied Physics.
Journal of Shanghai Jiaotong University.
Chinese Journal of Lasers.
Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science.
Journal of Applied Physics.
Journal of Shanghai Jiaotong University.
Online since: December 2012
Authors: Zulkifli Ahmad, A. Rashid Azura, Y.S. Nurfatihah, A.B.B. Alwi
Xia: submitted to Journal of Advanced Materials (2001)
McLellan: submitted to Journal of Advanced Functional Materials (2003)
Zhao: submitted to Journal of Materials Letters (2010)
Kaler: submitted to Journal of Advanced Materials (2000)
Kurian: submitted to International Journal of Polymeric Materials (2003).
McLellan: submitted to Journal of Advanced Functional Materials (2003)
Zhao: submitted to Journal of Materials Letters (2010)
Kaler: submitted to Journal of Advanced Materials (2000)
Kurian: submitted to International Journal of Polymeric Materials (2003).
Online since: December 2013
Authors: Hong Bing Yu, Heng Dong, Xiao Yan Wu
Wen: submitted to Journal of Materials Science & Technology (2010)
[6] Y.
Wen: submitted to Materials Science and Engineering B (2010) [7] S.M.
Kuang: submitted to Journal of Materials Science & Technology (2010) [10] Y.
Wen: submitted to Materials Chemistry and Physics (2012) [11] J.S.
Kamble: submitted to Materials Research Bulletin (2008) [13] C.H.
Wen: submitted to Materials Science and Engineering B (2010) [7] S.M.
Kuang: submitted to Journal of Materials Science & Technology (2010) [10] Y.
Wen: submitted to Materials Chemistry and Physics (2012) [11] J.S.
Kamble: submitted to Materials Research Bulletin (2008) [13] C.H.
Online since: October 2015
Authors: Nikolay I. Plusnin
New materials for MTJs.
Journal of magnetism and magnetic materials, 98 (1991) L7-L9
Journal of magnetism and magnetic materials, 198 (1999) 146-148
Progress in materials science, 52 (2007) 401-420
Science and Technology of advanced Materials, 9 (2008) 014102 (13 pp)
Journal of magnetism and magnetic materials, 98 (1991) L7-L9
Journal of magnetism and magnetic materials, 198 (1999) 146-148
Progress in materials science, 52 (2007) 401-420
Science and Technology of advanced Materials, 9 (2008) 014102 (13 pp)
Online since: October 2007
Authors: Gang Wang, Yu Fang Yang, Ya Ping Zong
The materials studied are composed of 10% SiC in volume fraction and
90% deoxidized Iron powder of ≥98.68% purity rate, 25µm in average particle diameter.
The density data shown here were described as the percentage of the ideal density of 10v% SiCp/Fe materials.
Therefore homogeneous, dense and high quality materials can be prepared by specimen current heating hot press sintering technology.
Crowson, U S army research office materials science program recent developments and trends, in: Proc Advanced Materials and Mechanics, Peking University Press (1996), p.1103 [4] S.
LI: Chinese Journal of Materials Research., 17 (2003),p.226 [11] G.
The density data shown here were described as the percentage of the ideal density of 10v% SiCp/Fe materials.
Therefore homogeneous, dense and high quality materials can be prepared by specimen current heating hot press sintering technology.
Crowson, U S army research office materials science program recent developments and trends, in: Proc Advanced Materials and Mechanics, Peking University Press (1996), p.1103 [4] S.
LI: Chinese Journal of Materials Research., 17 (2003),p.226 [11] G.
Online since: November 2011
Authors: Jin Chun Feng, Jian Sheng Ding, Lin Xun Liu
The research on the influence law of heat treatment on the tissue and properties of supercritical material has an important role in the correct selection of supercritical materials and improving the efficiency of turbine power generation further.
When materials are tempered at about 680 ℃, the decline of Rp0.2 and Rm is small, while the rise of A5 and AKv is sharp, improving material toughness.
When materials are tempered ranging from 680 ℃ ~ 700 ℃, the decline of Rp0.2 and Rm is small , while the rise of A5 and AKv is sharp, improving material toughness [6].
Engineering Materials, 2006, (10):88-90
Journal of Tsinghua University (Natural Science), 2008, 48 (11):1711-171
When materials are tempered at about 680 ℃, the decline of Rp0.2 and Rm is small, while the rise of A5 and AKv is sharp, improving material toughness.
When materials are tempered ranging from 680 ℃ ~ 700 ℃, the decline of Rp0.2 and Rm is small , while the rise of A5 and AKv is sharp, improving material toughness [6].
Engineering Materials, 2006, (10):88-90
Journal of Tsinghua University (Natural Science), 2008, 48 (11):1711-171
Online since: April 2011
Authors: Elisabetta Ceretti, Claudio Giardini, Aldo Attanasio, Cristian Cappellini
Capello: Journal Materials Processing Technology Vol. 160 (2005), p. 221-228
Capello: Journal Materials Processing Technology Vol. 172 (2006), p. 319-326
Jacobson: Journal Materials Processing Technology Vol. 147 (2004), p. 181-184
Tsukuda: Journal Materials Processing Technology Vol. 150 (2004), p. 234-241
Watkins: Materials Science Engineering A Vol. 390 (2005), p. 88-97
Capello: Journal Materials Processing Technology Vol. 172 (2006), p. 319-326
Jacobson: Journal Materials Processing Technology Vol. 147 (2004), p. 181-184
Tsukuda: Journal Materials Processing Technology Vol. 150 (2004), p. 234-241
Watkins: Materials Science Engineering A Vol. 390 (2005), p. 88-97
Online since: January 2012
Authors: Leszek Adam Dobrzański, Wojciech Borek
Borek 1,b
1 Division of Materials Processing Technology, Management and Computer Techniques in Materials Science, Institute of Engineering Materials and Biomaterials,
Silesian University of Technology, ul.
Grajcar: Archives of Materials Science and Engineering Vol. 28, (2007), pp. 743-750
Padmanabhan: Journal of Materials Science Letters Vol. 13, (1994), pp. 389-392
Guelton: Materials Science and Engineering A Vol. 387-389, (2004), pp. 158-162
Borek: Archives of Materials Science and Engineering Vol. 37, (2009), pp. 69-76.
Grajcar: Archives of Materials Science and Engineering Vol. 28, (2007), pp. 743-750
Padmanabhan: Journal of Materials Science Letters Vol. 13, (1994), pp. 389-392
Guelton: Materials Science and Engineering A Vol. 387-389, (2004), pp. 158-162
Borek: Archives of Materials Science and Engineering Vol. 37, (2009), pp. 69-76.