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Online since: October 2011
Authors: Chen Bao, Li Xun Cai, Kai Kai Shi, Yao Yao
Journal of Zhe Jiang University-SCIENCE A Vol.No.10(11) (2009),p. 1541-1560
[2] Ernst H.A, Paris P.C, Rossow M, Hutchinson J.W.
ASTM STP 677, American Society for Testing and Materials (1979),p. 581-599 [3] Ernst H.A, Paris P.C.
Fracture Mechanics ASTM STP 743, American Society for Testing and Materials (1981),p. 476-502 [5] Wainstain J, Frontini P M, Cassanelli A.N.
Journal of Zhe Jiang University-SCIENCE A Vol.No.11(10) (Oct.2010),p. 782-788 [8]ASTM E1820-08a.
Annual Book of ASTM Standards Vol.3.01, Philadelphia, PA: American Society for Testing and Materials (2008).
ASTM STP 677, American Society for Testing and Materials (1979),p. 581-599 [3] Ernst H.A, Paris P.C.
Fracture Mechanics ASTM STP 743, American Society for Testing and Materials (1981),p. 476-502 [5] Wainstain J, Frontini P M, Cassanelli A.N.
Journal of Zhe Jiang University-SCIENCE A Vol.No.11(10) (Oct.2010),p. 782-788 [8]ASTM E1820-08a.
Annual Book of ASTM Standards Vol.3.01, Philadelphia, PA: American Society for Testing and Materials (2008).
Online since: June 2014
Authors: Yu Wang, Xue Jun Kang, Jian Jun Deng, Shi Bing Yu, Zi Jian Qu, Si Wei Deng
It is necessary to develop a new adsorbent material.
A field emission scanning electron microscope (Ultra Plus SEM, Zeiss, Germany) and infrared spectrometer (Nicolet5700) (Thermo Fisher Co., Ltd, USA) were prepared for characterizing materials.
Results and discussion Electron microscopic analysis The surface characteristics of the tested materials were investigated using a field emission scanning electron microscope.
Lu, Journal of separation science, 33 (2010) 2369-2375
Kang, Journal of Southeast University, 28 (2012) 464-468
A field emission scanning electron microscope (Ultra Plus SEM, Zeiss, Germany) and infrared spectrometer (Nicolet5700) (Thermo Fisher Co., Ltd, USA) were prepared for characterizing materials.
Results and discussion Electron microscopic analysis The surface characteristics of the tested materials were investigated using a field emission scanning electron microscope.
Lu, Journal of separation science, 33 (2010) 2369-2375
Kang, Journal of Southeast University, 28 (2012) 464-468
Online since: March 2025
Authors: Moses Kiliswa, Anthony Govender
Boyer, Attributes, Characteristics, and Applications of Titanium and its Alloys The Journal of the Minerals, Metals and Materials Society. 62 (2010) 21-24
Dunand, Titanium Foams Produced by Solid-State Replication of NaCl Powders Materials Science and Engineering A. 528 (2010) 691-697
Conrad, Effect of Interstitial Solutes on the Strength and Ductility of Titanium,Progress in Materials Science. 26 no. 2, (1981) 123-403, doi: 10.1016/0079-6425(81)90001-3
Ivasishin, Comparative Study on Cold Compaction Behavior of TiH2 Powder and HDH-Ti Powder,Hindawi: Advances in Materials Science and Engineering. 2021 (2021) 1-15
Manero, Powder Metallurgy with Space Holder for Porous Titanium Implants: A Review,Journal of Materials Science & Technology. 76 (2021) 129-149, doi: https://doi.org/10.1016/j.jmst.2020.11.005
Dunand, Titanium Foams Produced by Solid-State Replication of NaCl Powders Materials Science and Engineering A. 528 (2010) 691-697
Conrad, Effect of Interstitial Solutes on the Strength and Ductility of Titanium,Progress in Materials Science. 26 no. 2, (1981) 123-403, doi: 10.1016/0079-6425(81)90001-3
Ivasishin, Comparative Study on Cold Compaction Behavior of TiH2 Powder and HDH-Ti Powder,Hindawi: Advances in Materials Science and Engineering. 2021 (2021) 1-15
Manero, Powder Metallurgy with Space Holder for Porous Titanium Implants: A Review,Journal of Materials Science & Technology. 76 (2021) 129-149, doi: https://doi.org/10.1016/j.jmst.2020.11.005
Online since: March 2016
Authors: Yue Wu, Zhao Hui Feng, Xu Dong Wang, Jiong Li Li
Powder Metallurgy Materials Science and Engineering, 2003, 8(4): 299−307
Journal of Materials Engineering and Performance
Materials Science and Engineering A, 2008, 498(1-2): 314-320
Materials Science and Technology, 2003, 19(11): 1483−1490
Materials Science and Engineering A, 2004, 379: 321−326
Journal of Materials Engineering and Performance
Materials Science and Engineering A, 2008, 498(1-2): 314-320
Materials Science and Technology, 2003, 19(11): 1483−1490
Materials Science and Engineering A, 2004, 379: 321−326
Online since: August 2009
Authors: Qiu Ju Zheng, Jing Wang, Ji Hui Xu, Wen Lai Zhang, Xin Wang
Preparation and characterization of CePO4 coated ZrO2 composite
powders by Hydrothemal method
Jing Wang Xin Wang* Wenlai Zhang Qiuju Zheng Jihui Xu
(Institute of Materials Science and Engineering, Ocean University of China, Qingdao China,266100)
E-mail address: wangjing8354@yahoo.cn; wangxinhd@ouc.edu.cn
Keywords: hexagonal monoclinic hydrothemal method
Abstract: The hexagonal and the monoclinic CePO4 with rod-like coated ZrO2 composite powders
were successfully synthesized through the hydrothemal method. the coated powders were
characterized by the techniques of XRD, TEM, DTA and zeta potential measurements.
In addition, the morphology of the coated powders after calcinations at 1000°C was also investigated. 1.Introduction Ceramic materials have been used as engineering materials because of their high strength and high hareness.
In order to improve the machinability of this ceramic materials, one metrod is to introduce another weak interphase or layered structure material into the matrix to facilitate crack deflection during machining[3].
Acknowledgements The present work was financially supported by National Nature Science Funds of China(50542032) and Sci-tech Project of Qingdao(09-1-3-39-jch).
References: [1]Zhenjun Zhou, Wei Pan, Zhipeng Xie, Journal of the European Ceramic Society 23(2003), 1649-1654 [2]Davis J.B., Marshall D.B., Housley R.M., Morgan P.E.D., Journal of the American Ceramic Society, 81(1998), 2169-2175 [3]Ruigang Wang, Wei Pan, Jian Chen, Mengning Jiang, Youming Luo and Minghao Fang, Ceramics International, 29(2003), 19-25 [4]Youjin Zhang, Hangmin Guan, Journal of Crystal Growth, 256(2003), 156-161 [5]TIAN Boran, LIU Jiachen, ZHAO Yubong, LIU Mingzheng, Journal of Wuhan University of Technology-Mater.Sci.Ed, 20(2004), 17-20 [6]Hai Gao, Jiachen Liu, Haiyan Du, Mingzheng Liu, Weirong Huo, Lijuan Wang, Scripta Materialia, 49(2003), 515-520 [7]Hai Gao, Jiachen Liu, Haiyan Du, Mingzheng Liu, Lijuan Wang, Weirong Huo, Journal of rare earths, 21(2003), 637-640 [8]K.K.Chawlaa, H.Liub, J.Janczak-Ruschc, S.Sanbasivand, Journal of the European Ceramic Society, 20(2000), 551-559 [9]Vayssieres Lionel, Advanced Material, 15(2003), 464-466
In addition, the morphology of the coated powders after calcinations at 1000°C was also investigated. 1.Introduction Ceramic materials have been used as engineering materials because of their high strength and high hareness.
In order to improve the machinability of this ceramic materials, one metrod is to introduce another weak interphase or layered structure material into the matrix to facilitate crack deflection during machining[3].
Acknowledgements The present work was financially supported by National Nature Science Funds of China(50542032) and Sci-tech Project of Qingdao(09-1-3-39-jch).
References: [1]Zhenjun Zhou, Wei Pan, Zhipeng Xie, Journal of the European Ceramic Society 23(2003), 1649-1654 [2]Davis J.B., Marshall D.B., Housley R.M., Morgan P.E.D., Journal of the American Ceramic Society, 81(1998), 2169-2175 [3]Ruigang Wang, Wei Pan, Jian Chen, Mengning Jiang, Youming Luo and Minghao Fang, Ceramics International, 29(2003), 19-25 [4]Youjin Zhang, Hangmin Guan, Journal of Crystal Growth, 256(2003), 156-161 [5]TIAN Boran, LIU Jiachen, ZHAO Yubong, LIU Mingzheng, Journal of Wuhan University of Technology-Mater.Sci.Ed, 20(2004), 17-20 [6]Hai Gao, Jiachen Liu, Haiyan Du, Mingzheng Liu, Weirong Huo, Lijuan Wang, Scripta Materialia, 49(2003), 515-520 [7]Hai Gao, Jiachen Liu, Haiyan Du, Mingzheng Liu, Lijuan Wang, Weirong Huo, Journal of rare earths, 21(2003), 637-640 [8]K.K.Chawlaa, H.Liub, J.Janczak-Ruschc, S.Sanbasivand, Journal of the European Ceramic Society, 20(2000), 551-559 [9]Vayssieres Lionel, Advanced Material, 15(2003), 464-466
Online since: May 2018
Authors: Qing Qing Ni, Yong Jie Yan
Experimental
Materials.
Journal of Magnetism and Magnetic Materials 321 (24) (2009): 4081-5
Journal of Magnetism and Magnetic materials 217 (1) (2000): 89-92
ACS applied materials & interfaces 8 (11) (2016): 7370-80
Journal of materials science. 44 (15) (2009): 3917-27
Journal of Magnetism and Magnetic Materials 321 (24) (2009): 4081-5
Journal of Magnetism and Magnetic materials 217 (1) (2000): 89-92
ACS applied materials & interfaces 8 (11) (2016): 7370-80
Journal of materials science. 44 (15) (2009): 3917-27
Online since: December 2011
Authors: Sheng Gao Wang, Wen Bo Zhang, Xiao Chun Fang, Zeng Jie Kong
Surface Modification of Aluminum by Plasma and the Surface Initiated Polymerization
Zhang Wen-bo1,2,a, Wang Sheng-gao1,2,b, Fang Xiao-chun1,2,c, Kong Zengjie1,2,d
1Key Laboratory of Plasma Chemistry and Advanced Materials of Hubei Province, Wuhan 430074, China
2School of Material Science and Engineering, Wuhan Institute of Technology, Wuhan 430074, China
adeboluoyi@126.com, bwyysg@163.com, cfangsunny08@163.com, dkongzengjie@126.com
Keywords: Plasma; Surface initiated polymerization; Surface modification; Sodium acrylate
Abstract.
Experimental Produce Materials.
Aluminum sheet (AS) was used as the base materials.
Shimada: Journal of Photopolymer Surface and Technology.
Wang: Journal of Food Science and Biotechnology Vol. 25 (2006), p. 102
Experimental Produce Materials.
Aluminum sheet (AS) was used as the base materials.
Shimada: Journal of Photopolymer Surface and Technology.
Wang: Journal of Food Science and Biotechnology Vol. 25 (2006), p. 102
Online since: August 2011
Authors: Mao Deng, Zong Ming Wang, Chun Xue Zhang
Introduction
Flows through moving or deforming boundaries are very common in nature and engineering applications, such as biological sciences, aerodynamics and mechanical engineering.
Widely used as a key engineering material, screen is a kind of porous materials, or porous media [6].
As a result, the article has shed light on the effect introduced by the frames and pores while flow passing through the moving porous material.
Nallapati: submitted to Journal of Computational Physics (2003) [5] Z.
Keolian: submitted to Journal of Fluids Engineering (2003) [10] S.I.
Widely used as a key engineering material, screen is a kind of porous materials, or porous media [6].
As a result, the article has shed light on the effect introduced by the frames and pores while flow passing through the moving porous material.
Nallapati: submitted to Journal of Computational Physics (2003) [5] Z.
Keolian: submitted to Journal of Fluids Engineering (2003) [10] S.I.
Online since: October 2010
Authors: H.Y. Wang, F.Y. Xue, Nai Hui Zhao, De Jun Li
The hardness of materials is proportional to their bulk and shear modulus.
Zhou: Journal of Sichuan University, Vol. 45(2008), p.1189 [3] L.
Roumili: Materials Chemistry and Physics, Vol.91(2005), p.17 [4] Vanderbilt D: Physical Review B, Vol. 419(1990), p.7892 [5] J.P.
He: ORDNANCE MATERIAL SCIENCE AND ENGINEERING, Vol, 23(2000), p. 8 [12] C.M.
Sun: Materials Research and Application, Vol.1(2007), p. 281 [15] Y.H.
Zhou: Journal of Sichuan University, Vol. 45(2008), p.1189 [3] L.
Roumili: Materials Chemistry and Physics, Vol.91(2005), p.17 [4] Vanderbilt D: Physical Review B, Vol. 419(1990), p.7892 [5] J.P.
He: ORDNANCE MATERIAL SCIENCE AND ENGINEERING, Vol, 23(2000), p. 8 [12] C.M.
Sun: Materials Research and Application, Vol.1(2007), p. 281 [15] Y.H.