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Online since: December 2022
Authors: S.M. Dasharath, Pallavi Pushp
Materials Science and Engineering A, 196(2002)329–331
Journal of Metastable and Nanocrystalline Materials 15(2003)366
Metallurgical and Materials Transactions A Physical Metallurgy and Materials Science, 32(2001)843
Advanced Engineering Materials, 9(2007)667
On the Preparation of Bio- Nano- and Structural Ceramics and Composites by Spark Plasma Sintering, Journal of Solid-State Science,5(1) (2003)125-131
Journal of Metastable and Nanocrystalline Materials 15(2003)366
Metallurgical and Materials Transactions A Physical Metallurgy and Materials Science, 32(2001)843
Advanced Engineering Materials, 9(2007)667
On the Preparation of Bio- Nano- and Structural Ceramics and Composites by Spark Plasma Sintering, Journal of Solid-State Science,5(1) (2003)125-131
Online since: April 2014
Authors: Feng Liu, Xi Feng Yan, Jing Lan Wang, You Hua Zhou
Research on Environment Materials with Variation Rule And Characteristic of Air Pollutants In Nanchang City
Xifeng Yan1, a , Jinglan Wang1, b, Youhua Zhou2, c and Feng Liu 1,d
1 Jiangxi science and Technology Normal University, Jiangxi, China, 330013
2 Beijing Geo Environ Engineering Technology, Inc, Beijing, China, 100095
aemail:xifengyan@163.com, bemai:jxncwjl@163.com,
cemail: 252014111@qq.com, demail: 82899084@qq.com
Keywords: Air pollutants; Correlation analysis; Nanchang.
Acknowledgements This work was financially supported by Jiangxi Science and Technology Agency (20122BBG70080 ) References [1] WU Dan, WANG Shi-gong, SHANG Ke-zheng.
China Environmental Science, 2005,25(4):460-464 [4]Li Zhang, Jian Wu, Wu Zhang, Analysis of visibility variations in China from 1955 to 2000, Journal of Lanzhou University (Natural Science), 2011,47(6):46-55
Acknowledgements This work was financially supported by Jiangxi Science and Technology Agency (20122BBG70080 ) References [1] WU Dan, WANG Shi-gong, SHANG Ke-zheng.
China Environmental Science, 2005,25(4):460-464 [4]Li Zhang, Jian Wu, Wu Zhang, Analysis of visibility variations in China from 1955 to 2000, Journal of Lanzhou University (Natural Science), 2011,47(6):46-55
Online since: February 2012
Authors: Dong Sheng Chen, Ying Jin Gan, Xiao Hong Yuan
Introduction
Recently, development of new fibers taking plants resources as raw materials is paid much attention in the world.
Experimental Materials.
Plant Fiber Sciences in China. 28 (2006) 249-253.
Progress in Textile Science & Technology. 6 (2006) 17-19.
Journal of Cellulose Science and Technology. 17(2008)57-60.
Experimental Materials.
Plant Fiber Sciences in China. 28 (2006) 249-253.
Progress in Textile Science & Technology. 6 (2006) 17-19.
Journal of Cellulose Science and Technology. 17(2008)57-60.
Online since: January 2014
Authors: Shi Gen Zhu, Chen Xin Ouyang, Wei Wei Dong
Both the vial and milling balls (10mm in diameter) were made of cemented carbide materials.
Materials and Design 2001; 22:507-510 [2] F.
Grigorescu, Densification, Mechanical Properties and Wear behavior of WC-VC-Co-Al Hardmetals, International Journal of Refractory Metals & Hard Materials. 2001;19 (4-6): 381-387 [3] P.
Materials Transactions, 2009,50 (10) :2435-2440 [5] S.
Journal of Materials Science,2012,47(3): 1588-1593 [6] M.
Materials and Design 2001; 22:507-510 [2] F.
Grigorescu, Densification, Mechanical Properties and Wear behavior of WC-VC-Co-Al Hardmetals, International Journal of Refractory Metals & Hard Materials. 2001;19 (4-6): 381-387 [3] P.
Materials Transactions, 2009,50 (10) :2435-2440 [5] S.
Journal of Materials Science,2012,47(3): 1588-1593 [6] M.
Online since: January 2014
Authors: Da Shu Li, Xing Qi Qiu, Zhi Wei Zheng
Numerical Simulation of Molten Metal Droplet Impinging in Uniform Droplet Spray Rapid Prototyping[C]//Materials Science Forum. 2012, 704: 680-684
Journal Thermal Spray Technology, 2010,19(3), 602–610
Journal of Thermal Science and Technology, 2011, 6(2): 219-234
Journal of Power and Energy Systems, 2010, 4(2): 327-336
Journal of computational physics, 1992, 100(2): 335-354
Journal Thermal Spray Technology, 2010,19(3), 602–610
Journal of Thermal Science and Technology, 2011, 6(2): 219-234
Journal of Power and Energy Systems, 2010, 4(2): 327-336
Journal of computational physics, 1992, 100(2): 335-354
Online since: December 2013
Authors: Denni Kurniawan, S. Sharif, P.Y.M. Wibowo Ndaruhadi
The fundamental difference between them lies only in the workpiece material.
Bone is a living tissue, so that when seen as a workpiece material, it certainly has higher sensitivity and dynamics compared to non-bone materials used by the manufacturing industry.
Hillery and I Shuaib, Temperature effects in the drilling of human and bovine bone, Journal of Materials Processing Technology 92-93 (1999) 302-308
Davidson, DF James, Drilling in bone: modeling heat generation and temperature distribution, Journal of Biomechanical Engineering. 125 (2003), p.305-314 [6] D Kurniawan, N Jiawkok, MY Noordin, Machining conditions effect to machining temperature and forces in orthogonal machining of bone, Advanced Materials Research. 658 (2013), p.223-226 [7] M.R.
International Journal of Advanced Manufacturing Technology. 60 (2012), p.853-863 [9] Chang Kuan Yu, Chang Hong Chang, Yu Pu Ping, Yen Ke Tien, and Huang Bo Wun, Natural Properties in a Micro Drill Cutting into Bones, Life Science Journal, Vol 6 (2009), p.28-33 [10] Ula¸s Çayda¸s, Ahmet Hasçalık, Ömer Buytoz, and Ahmet Meyveci, Performance Evaluation of Different Twist Drills in Dry Drilling of AISI 304 Austenitic Stainless Steel, Materials and Manufacturing Processes, 26 (2011), p.951–960 [11] N.
Bone is a living tissue, so that when seen as a workpiece material, it certainly has higher sensitivity and dynamics compared to non-bone materials used by the manufacturing industry.
Hillery and I Shuaib, Temperature effects in the drilling of human and bovine bone, Journal of Materials Processing Technology 92-93 (1999) 302-308
Davidson, DF James, Drilling in bone: modeling heat generation and temperature distribution, Journal of Biomechanical Engineering. 125 (2003), p.305-314 [6] D Kurniawan, N Jiawkok, MY Noordin, Machining conditions effect to machining temperature and forces in orthogonal machining of bone, Advanced Materials Research. 658 (2013), p.223-226 [7] M.R.
International Journal of Advanced Manufacturing Technology. 60 (2012), p.853-863 [9] Chang Kuan Yu, Chang Hong Chang, Yu Pu Ping, Yen Ke Tien, and Huang Bo Wun, Natural Properties in a Micro Drill Cutting into Bones, Life Science Journal, Vol 6 (2009), p.28-33 [10] Ula¸s Çayda¸s, Ahmet Hasçalık, Ömer Buytoz, and Ahmet Meyveci, Performance Evaluation of Different Twist Drills in Dry Drilling of AISI 304 Austenitic Stainless Steel, Materials and Manufacturing Processes, 26 (2011), p.951–960 [11] N.
Online since: October 2018
Authors: Li Hong Zhang, Bo Zhang, Jun Zhe Zhang, Xiao Peng Wang
Basics of Sound Absorption Performance of Porous Metal Materials
J.F.
Zhi, Study on sound absorption performance of metal fiber porous materials, Rare Metal Materials and Engineering.
Huang, Acoustic model of porous materials and its application, Materials Bulletin. 5 (2015) 145-149
Chen, High temperature sound absorption performance of sintered metal fiber porous materials, Journal of Xi'an Jiaotong University. 11 (2008) 1327-1331
Wu, Study on high temperature sound absorption performance of porous metal materials, Journal of Vibration Engineering. 5(2010)502-507
Zhi, Study on sound absorption performance of metal fiber porous materials, Rare Metal Materials and Engineering.
Huang, Acoustic model of porous materials and its application, Materials Bulletin. 5 (2015) 145-149
Chen, High temperature sound absorption performance of sintered metal fiber porous materials, Journal of Xi'an Jiaotong University. 11 (2008) 1327-1331
Wu, Study on high temperature sound absorption performance of porous metal materials, Journal of Vibration Engineering. 5(2010)502-507
Online since: December 2012
Authors: Li Min Jin, Bao Zhong Sun, Hang Jun Hu
This method can be used to study the properties of 3-D woven fabric and design 3-D fabric structure reinforced composite material.
2 Materials and experiments
The three-dimensional angle-interlock woven fabric (3DAWF) with layer to layer structure was used in this study.
Materials and Design 2002, 23(7):671–674
Journal of Composite Materials 2007, 41(24):2915–2938
Journal of the Textile Institute 1999, 90(1):91–99
Composites Science and Technology 2000, 60(2):241–248.
Materials and Design 2002, 23(7):671–674
Journal of Composite Materials 2007, 41(24):2915–2938
Journal of the Textile Institute 1999, 90(1):91–99
Composites Science and Technology 2000, 60(2):241–248.
Online since: January 2013
Authors: Liang Hu, Zhong Yuan Wu, Jia Xi Chen
Experimental
Materials.
Materials & design, 2012, 34(Feb.): 691-698
Materials Science & Engineering.
A, Structural Materials: Properties, Microstructure and Processing, 2007, 460/461(0): 611-618
Journal of Colloid and Interface Science, 361(2011) 483-490
Materials & design, 2012, 34(Feb.): 691-698
Materials Science & Engineering.
A, Structural Materials: Properties, Microstructure and Processing, 2007, 460/461(0): 611-618
Journal of Colloid and Interface Science, 361(2011) 483-490
Online since: February 2013
Authors: Ripal Parmar, R.J. Pathak, Dipak Sahay, R.K. Shah
College, Sect.28, Gandhinagar, Gujarat, India
2 Arts,Science and RA Patel Com.
Moreover, WSe2 is resistive material against corrosion.
The materials in the elemental form are taken in a stoichiometric proportion and filled up in a quartz ampoule.
YB Dabgar, Principal, RR Mehta College of Science &CL Parikh College of Commerce, Palanpur for his kind cooperation throughout this work. 6 References [1] R Aloney*, P R Chandraa, M.Ramrakhaini, Journal Of Optoelectronics And Advanced Materials, 13(7), (July 2011), 830 – 832
[4] M K Agarwal, M N Vashi and A R Jani, Journal of Crystal Growth, 71 (2),(1985), 415-420
Moreover, WSe2 is resistive material against corrosion.
The materials in the elemental form are taken in a stoichiometric proportion and filled up in a quartz ampoule.
YB Dabgar, Principal, RR Mehta College of Science &CL Parikh College of Commerce, Palanpur for his kind cooperation throughout this work. 6 References [1] R Aloney*, P R Chandraa, M.Ramrakhaini, Journal Of Optoelectronics And Advanced Materials, 13(7), (July 2011), 830 – 832
[4] M K Agarwal, M N Vashi and A R Jani, Journal of Crystal Growth, 71 (2),(1985), 415-420