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Online since: February 2017
Authors: János Dobránszky, János Csizmazia, Enikő Réka Fábián, Robert Ott
Materials Science and Technology.
Materials Science and Technology.
Welding Journal. v. 74. p.28-40. 1995
Journal of Materials Science, 2007 v. 42 ISS. 13, pp. 4892-4898 [8] P.S.
Khourshid, T Sharef: Effect of Laser Beam Welding Parameters on Microstructure and Properties of Duplex Stainless Steel, Materials Sciences and Applications, 2011, 2, 1443-1451
Materials Science and Technology.
Welding Journal. v. 74. p.28-40. 1995
Journal of Materials Science, 2007 v. 42 ISS. 13, pp. 4892-4898 [8] P.S.
Khourshid, T Sharef: Effect of Laser Beam Welding Parameters on Microstructure and Properties of Duplex Stainless Steel, Materials Sciences and Applications, 2011, 2, 1443-1451
Online since: September 2013
Authors: Xiao Jun Tang, Xin Tao Wang, Zhen Qing Wang, Xiang Nan Meng, Hong Qing Lv
Acknowledgments
This work was supported by the National Natural Science Funds (11272096), the Ph.D.
International Journal of Impact Engineering.
International Journal of Solids and Structures.
International Journal of Solids and Structures.Vol.37(2000),P.6383-6395
Journal of Ballistics.Vol.20(2008), P.9-16.
International Journal of Impact Engineering.
International Journal of Solids and Structures.
International Journal of Solids and Structures.Vol.37(2000),P.6383-6395
Journal of Ballistics.Vol.20(2008), P.9-16.
Online since: September 2003
Authors: S.H. Zhang, F. Lu
Citation & Key Engineering Materials Vols
In fact, it's impossible for natural rock materials to meet the demands.
Li: Journal of Materials Processing Technology Vol. 129(1-3) (2002), p. 50 [2] X.P.
Malkin: Transactions of the ASME: Journal of Manufacturing Science and Engineering, Vol. 123(1) (2001), p. 13 [5] D.N.
Lu: The Chinese Journal of Nonferrous Metals Vol. 12(1) (1992), p. 11 [7] S.H.
In fact, it's impossible for natural rock materials to meet the demands.
Li: Journal of Materials Processing Technology Vol. 129(1-3) (2002), p. 50 [2] X.P.
Malkin: Transactions of the ASME: Journal of Manufacturing Science and Engineering, Vol. 123(1) (2001), p. 13 [5] D.N.
Lu: The Chinese Journal of Nonferrous Metals Vol. 12(1) (1992), p. 11 [7] S.H.
Online since: December 2014
Authors: Li Jun Yang, Hong Zhi Zhang, Chun Yang Zhao, Yang Wang
In laser induced thermal-crack propagation (LITP) cutting brittle materials, according to the laser absorption ability, materials are divided into the body absorption and surface absorption.
In recent years, the science of cutting brittle materials using LITP has attracted a significant amount of attention with many studies done to improve the machined surface characteristics and cleaving efficiency [1-6].
Tsai, Fracture Mechanism of Laser Cutting With Controlled Fracture, Journal of Manufacturing Science and Engineering, 125 (2003) 519-528
Materials Processing Technology, 155-156 (2004) 1797-1804
Materials Processing Technology, 136 (2003) 166-173
In recent years, the science of cutting brittle materials using LITP has attracted a significant amount of attention with many studies done to improve the machined surface characteristics and cleaving efficiency [1-6].
Tsai, Fracture Mechanism of Laser Cutting With Controlled Fracture, Journal of Manufacturing Science and Engineering, 125 (2003) 519-528
Materials Processing Technology, 155-156 (2004) 1797-1804
Materials Processing Technology, 136 (2003) 166-173
Online since: February 2012
Authors: Feng Li, Sheng Hu Cao, Zhi Shen Wu
Seible: Construction and Building Materials 17(2003), p.389-403
[3] J.G.
Chang: Journal of Composite Materials 20 (1986), p.216-235 [10] G.A.
Mouritz: Journal of Materials Science Letter 22 (2003), p.1507-1509 [12] S.
Wang: Journal of Composite Materials 43(2009), p.315-330 [13] S.
Duncan: Journal of Material Science 6 (1971), p. 289-293 [20] Y.
Chang: Journal of Composite Materials 20 (1986), p.216-235 [10] G.A.
Mouritz: Journal of Materials Science Letter 22 (2003), p.1507-1509 [12] S.
Wang: Journal of Composite Materials 43(2009), p.315-330 [13] S.
Duncan: Journal of Material Science 6 (1971), p. 289-293 [20] Y.
Online since: December 2014
Authors: Yong Chen, Na Zhang, Ke Chen, Ning Yang, Min Liu, Feng Hui Zhao, Xiao Qin Zhao, Dun Liu
As lithium-ion battery anode materials, silicon has the highest specific capacity.
Such prepared materials displayed improved cycle life.
This method has been widely used in lithium ion battery anode materials research [4].
The results demonstrate that nanoporous structure and elecrtonically conducting materials are important and conducive for improving electrochemical properties of Si-based electrode materials.
Melman: Journal of the Electrochemical Society, 143 (1996) L4
Such prepared materials displayed improved cycle life.
This method has been widely used in lithium ion battery anode materials research [4].
The results demonstrate that nanoporous structure and elecrtonically conducting materials are important and conducive for improving electrochemical properties of Si-based electrode materials.
Melman: Journal of the Electrochemical Society, 143 (1996) L4
Online since: September 2015
Authors: Pei Leng Teh, Yeoh Cheow Keat, Joon Hoong Lim, Chik Abdullah
Ramakrishna Reddy, Solar Energy Materials and Solar Cells, 94 (2010), 1434–1436
Gordon, Materials Research Society Bulletin, 25 (2000), 52–57
Maldonado, Solar Energy Materials and Solar Cells, 91 (2007), 1449–1453
Lin, Applied Surface Science, 257(2011), 3446-3450
Mrotzek, Materials Science and Engineering: B, 104 (2003), 45-48 [20] H.
Gordon, Materials Research Society Bulletin, 25 (2000), 52–57
Maldonado, Solar Energy Materials and Solar Cells, 91 (2007), 1449–1453
Lin, Applied Surface Science, 257(2011), 3446-3450
Mrotzek, Materials Science and Engineering: B, 104 (2003), 45-48 [20] H.
Online since: September 2011
Authors: G. Qin, R.K. Du, Ya Xiong Liu, Z.X. Bai, H.Y. Wang
To reduce or eliminate the fibrous encapsulation layer, N2/H2 plasma treatment process is used to modify the polyurethane which is the most materials of the bio-electrode.
Modified layers are only a few nanometers in thickness and have no influence on the functions of the materials, and the surface modification can change the wettability and promote the adhesivity of cells on the materials.
Materials and Methods L Kam et al. studied the effect of borosilicate glass on astrocytes and fibroblas after grafting biological polypeptide molecular on its surface.
Matsuura: Journal of Applied Polymer Science Vol. 115 (2010), p.855 [4] A.E.
Wenxu: Journal of Zhejiang University (Natural Science) vol. 01 (1999), p.74
Modified layers are only a few nanometers in thickness and have no influence on the functions of the materials, and the surface modification can change the wettability and promote the adhesivity of cells on the materials.
Materials and Methods L Kam et al. studied the effect of borosilicate glass on astrocytes and fibroblas after grafting biological polypeptide molecular on its surface.
Matsuura: Journal of Applied Polymer Science Vol. 115 (2010), p.855 [4] A.E.
Wenxu: Journal of Zhejiang University (Natural Science) vol. 01 (1999), p.74
Online since: August 2005
Authors: Klod Kokini, Sudarshan V. Rangaraj
The TBC and bond coat were modeled as elastic-viscoplastic materials.
Takeuchi: Materials Science and Engineering A 189 (1994), p. 301
Taylor: Materials Science and Engineering A299 (2001), p. 296
Kokini: Mechanics of Time-Dependent Materials Vol. 6 (2002), p. 171
Taylor: Materials Science and Engineering A Vol. 323 (2002), p. 70
Takeuchi: Materials Science and Engineering A 189 (1994), p. 301
Taylor: Materials Science and Engineering A299 (2001), p. 296
Kokini: Mechanics of Time-Dependent Materials Vol. 6 (2002), p. 171
Taylor: Materials Science and Engineering A Vol. 323 (2002), p. 70
Online since: November 2011
Authors: Bo Lin Wu, Ting Ting Wu
Experiments
Materials and methods
A commercial alumina was used to prepare the specimens (particle size less than 2μm).
The materials were mixed at suitable ratio.
Investigation of phase compositions of the ceramic materials The investigation of various of phase compositions of ceramic materials was carried out using an X-ray diffractometer (XRD) with voltage 40 kV, current 40 mA.
Generally, properties of materials depend on their structure.
Reynolds: Journal of American Ceramic Society Vol. 37 (1954), p. 588 [9] Xin Wang, Peiling Wang and Yibing Cheng: Acta of Inorganic Material, In Chinese, Vol. 16 (2001), p. 984
The materials were mixed at suitable ratio.
Investigation of phase compositions of the ceramic materials The investigation of various of phase compositions of ceramic materials was carried out using an X-ray diffractometer (XRD) with voltage 40 kV, current 40 mA.
Generally, properties of materials depend on their structure.
Reynolds: Journal of American Ceramic Society Vol. 37 (1954), p. 588 [9] Xin Wang, Peiling Wang and Yibing Cheng: Acta of Inorganic Material, In Chinese, Vol. 16 (2001), p. 984