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Online since: August 2013
Authors: Zhi Qiang Gao, Wen Jie Ding, Jing Xu
Acknowledgments
Fund projects: Natural science fund project in Ningxia (NZ1131).
Journal of Chemical Engineering Design[J]. 2008, 18(3): 22~26
Journal of Tianjin University of Science and Technology[J]. 2007, 83(40):203-289
Journal of Anhui Agricultural Sciences[J]. 2010, 38(23):181-186
Digital oil and chemical journals[J]. 2007,53(34):102-106
Journal of Chemical Engineering Design[J]. 2008, 18(3): 22~26
Journal of Tianjin University of Science and Technology[J]. 2007, 83(40):203-289
Journal of Anhui Agricultural Sciences[J]. 2010, 38(23):181-186
Digital oil and chemical journals[J]. 2007,53(34):102-106
Online since: January 2010
Authors: Víctor H. Jacobo, Armando Ortiz, Agustín Bravo, Rafael Schouwenaars
Materials Science Forum, Vols.
539-543 (2007) 317-322
Submitted to Materials Science Forum (These proceedings)
Materials Science and Engineering, A 373 (2004) 99-106
Materials Science Input to Engineering models.
Risoe international symposium on materials science, (1992), 125-146
Submitted to Materials Science Forum (These proceedings)
Materials Science and Engineering, A 373 (2004) 99-106
Materials Science Input to Engineering models.
Risoe international symposium on materials science, (1992), 125-146
Online since: April 2014
Authors: Xiao Ming Tao, Bin Gang Xu, Hua Yang Yu, Jian Liang Gong
Introduction
Constructing highly ordered structures in materials at the nano/microscale levels is of great importance in modern science and technology.
Annual Review of Materials Science, 1998, 28:153
Advanced Materials, 2010, 22:3588
Journal of Materials in Civil Engineering, 2012, 25:365
Journal of Materials in Civil Engineering, 2012, 25:548
Annual Review of Materials Science, 1998, 28:153
Advanced Materials, 2010, 22:3588
Journal of Materials in Civil Engineering, 2012, 25:365
Journal of Materials in Civil Engineering, 2012, 25:548
Online since: January 2013
Authors: Guo Zhong Li, Xiao Long Li
Study on the performance of new foamed cement insulation material
XiaoLong Li, GuoZhong Li a*
Shandong Provincial Key Laboratory of Preparation and Measurement of Building Materials, School of Material Science and Engineering, University of Jinan, Jinan 250022, Shandong, China
amse_ligz@ujn.edu.cn, *correspondence author
Keywords: foamed cement; chemical foaming; thermal conductivity; microscopic morphology; action mechanism
Abstract.
Nowadays widely used insulation material mainly includes three types: organic insulation materials, inorganic thermal insulation materials, and metallic insulation materials [3].
[2] Fengxiang TU: New Building Materials. (1) (2001), p. 32-35
[3] Chunsheng LIU: Guangdong Building Materials. (8) (2005), p.113-114
[4] Yasser MHunaiti: Journal Of Materials In Cival Engineering. (5) (1997), p. 60-62.
Nowadays widely used insulation material mainly includes three types: organic insulation materials, inorganic thermal insulation materials, and metallic insulation materials [3].
[2] Fengxiang TU: New Building Materials. (1) (2001), p. 32-35
[3] Chunsheng LIU: Guangdong Building Materials. (8) (2005), p.113-114
[4] Yasser MHunaiti: Journal Of Materials In Cival Engineering. (5) (1997), p. 60-62.
Online since: February 2013
Authors: Nora Aini Ali, Latifah Ghani, Noor Zalina Mahmood
Modelling of Nitrogen and Phosphorus Flow in Wastewater Management: Case Study for Terengganu, Malaysia
Nora’aini Ali1,a,Latifah Ghani1,band Noor Zalina Mahmood2,c
1Department of Engineering Science, Faculty Science and Technology, University Malaysia Terengganu, 21030 Kuala Terengganu, Terengganu, Malaysia
2Institute of Biological Sciences, Faculty of Science, University of Malaya, 50603 Kuala Lumpur, Malaysia
anoraaini@umt.edu.my, blatifahamri732@yahoo.com, calin@um.edu.my
Keywords:Material Flow Analysis (MFA), Wastewater, Nitrogen (N), Phosphorus (P), Terengganu
Abstract.The Material Flow Analysis (MFA) method is often discussed in terms of water resources management.
§ All tertiary wastewater facilities eliminate P and N (either by chemical or biological removal) bas a non-recyclable material (metal-phosphate precipitates or precipitates together with numerous other waste materials as sludge).
Journal of Cleaner Production 12 (2003), p 919–934
Practical Handbook of Material Flow Analysis, Boca Raton, Florida, (2003)
Journal of Engineering Science and Technology.
§ All tertiary wastewater facilities eliminate P and N (either by chemical or biological removal) bas a non-recyclable material (metal-phosphate precipitates or precipitates together with numerous other waste materials as sludge).
Journal of Cleaner Production 12 (2003), p 919–934
Practical Handbook of Material Flow Analysis, Boca Raton, Florida, (2003)
Journal of Engineering Science and Technology.
Online since: March 2014
Authors: Carlos Antonio Reis Pereira Baptista, Ana Márcia Barbosa da Silva Antunes, Marcelo A.S. Torres, Viktor Pastoukhov, Sandro V.P. Espezua
The model can be coupled to a Monte Carlo scheme in order to introduce the scattering of the fatigue behaviour of materials in the volume element distribution along the crack path, when a material scatter parameter is known.
Among the analyzed materials, the AA6005 and AA6351 alloys present second phase particles with rounded shape, maximum sizes of 3 and 5 µm, respectively, which are constituted by α-(Fe, Mn)SiAl phase.
Defense Science and Technology Organization (2010)
Materials Science and Engineering A 545(2012), 68-77
Journal of the Mechanical Behavior of Materials.14 (2003), 73-85
Among the analyzed materials, the AA6005 and AA6351 alloys present second phase particles with rounded shape, maximum sizes of 3 and 5 µm, respectively, which are constituted by α-(Fe, Mn)SiAl phase.
Defense Science and Technology Organization (2010)
Materials Science and Engineering A 545(2012), 68-77
Journal of the Mechanical Behavior of Materials.14 (2003), 73-85
Online since: May 2011
Authors: Hui Qin, Yi Nian Zhu, Hui Li Liu, Zong Qiang Zhu, Cai Chun Wei
Sepulveda, et al: Materials Science and Engineering: A.
Cai, et al: Journal of Materials Processing Technology.
Tian: Chinese Journal of Materials Research.
Zhang, et al: Journal of Functional Materials.
Fan, et al: Journal of Functional Materials.
Cai, et al: Journal of Materials Processing Technology.
Tian: Chinese Journal of Materials Research.
Zhang, et al: Journal of Functional Materials.
Fan, et al: Journal of Functional Materials.
Online since: November 2012
Authors: Shi Wei Chen, Xiao Rong Wang
Meanwhile, the research in the future will be for the prosthesis manufactured by using bioactive materials in conjunction with tissue engineering methods to reduce, even to eliminate the need of taking autograft bones.
Chinese Journal of Trauma, 21(2005): 881-883
Laser Journal. 29(2008):70-71
Chinese Journal of Dental Materials and Devices. 12(2003) 117-121
WE WEST CHINA JOURNAL FOF STOMATOLOGY.12(1999) 298-300.
Chinese Journal of Trauma, 21(2005): 881-883
Laser Journal. 29(2008):70-71
Chinese Journal of Dental Materials and Devices. 12(2003) 117-121
WE WEST CHINA JOURNAL FOF STOMATOLOGY.12(1999) 298-300.
Online since: January 2011
Authors: Ling Feng Zhang, Yan Zhi Wang, Yi Xiong, Jinzhong Lu
Phases Transformation Analysis of Zro2 Ceramics after Laser Shock Processing
Zhang Lingfeng1, a, Wang Yanzhi1, b, Xiong Yi1, c and Lu Jinzhong2, d
1School of material science and Engineering, Henan University of Science and Technology, Luoyang 471003
2Key Laboratory of Photon Manufacture Science and Technology, Jiangsu University, Zhenjiang 212013
azlf-601@sohu.com, bwyz1168@126.com, cxy_hbdy@163.com, dblueesky2005@163.com
Keywords: Laser shock processing (LSP), phases transformation, tetragonal zirconia polycrystals (TZP), brittleness
Abstract.
Acknowledgements The authors are grateful for the support provided by National Natural Science Foundation of China (Nos. 50705038, 50801021 and 50735001), Natural Science Research projects of Henan Province Department of Education (2010B430010).
Yan: Journal of Materials Science Letters.
P.H.D. 1986 [5] S.Charles, Montross, TaoWei: International Journal of Fatigue, Vol.24(2002),p.1021 [6] Min Guanhui, Li Ru, Takahiro Inoue: Chinese Journal of Materials Research.
Vol. 82(1999), p. 2855 [9] GE Zhi-ping; LIU Zhi-feng; LIU Jia-chen: Journal of Tianjin University.
Acknowledgements The authors are grateful for the support provided by National Natural Science Foundation of China (Nos. 50705038, 50801021 and 50735001), Natural Science Research projects of Henan Province Department of Education (2010B430010).
Yan: Journal of Materials Science Letters.
P.H.D. 1986 [5] S.Charles, Montross, TaoWei: International Journal of Fatigue, Vol.24(2002),p.1021 [6] Min Guanhui, Li Ru, Takahiro Inoue: Chinese Journal of Materials Research.
Vol. 82(1999), p. 2855 [9] GE Zhi-ping; LIU Zhi-feng; LIU Jia-chen: Journal of Tianjin University.
Online since: September 2015
Authors: W.A.Y. Yusoff, D.T. Pham, K.D. Dotchev
In this technology, an object is created layer by layer from heat-fusible solid fine powdered materials with heat generated from a CO2 laser [1].
Polymer powders were the first, and are still the most widely employed, materials in LS [3].
At present, PA12 based powdered materials known as PA2200, supplied by EOS GmbH used to create functional plastic prototypes.
[5] D T Pham, K D Dotchev, WAY Yusoff, Deterioration of polyamide power properties in the laser sintering process, Journal of Mechanical Engineering Science IMeche, Part C, Vol.222.no.11, pp2163-2176, 2008
[6] WAY Yusoff , D T Pham, K Dotchev, Investigation of the thermal properties of different grades Polyamide 12 (PA12) in improving laser sintering process (SLS), Achievements in Engineering Sciences: Applied Mechanics and Materials Journal, Vols. 548-549 (2014) (AMM, ISSN: 1660-9336) [7] K D Dotchev, WAY Yusoff, Recycling polyamide 12 based powders in the laser sintering process, Rapid Prototyping Journal, Vol.15,Issue:3,pp.192-203, 2009
Polymer powders were the first, and are still the most widely employed, materials in LS [3].
At present, PA12 based powdered materials known as PA2200, supplied by EOS GmbH used to create functional plastic prototypes.
[5] D T Pham, K D Dotchev, WAY Yusoff, Deterioration of polyamide power properties in the laser sintering process, Journal of Mechanical Engineering Science IMeche, Part C, Vol.222.no.11, pp2163-2176, 2008
[6] WAY Yusoff , D T Pham, K Dotchev, Investigation of the thermal properties of different grades Polyamide 12 (PA12) in improving laser sintering process (SLS), Achievements in Engineering Sciences: Applied Mechanics and Materials Journal, Vols. 548-549 (2014) (AMM, ISSN: 1660-9336) [7] K D Dotchev, WAY Yusoff, Recycling polyamide 12 based powders in the laser sintering process, Rapid Prototyping Journal, Vol.15,Issue:3,pp.192-203, 2009