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Online since: August 2016
Authors: Gláucio Soares da Fonseca, Luciano Pessanha Moreira, D.C.T. Costa, M. Martiny, S. Mercier, M.C. Cardoso
Lee: Metallurgical and Materials Transactions A Vol. 29 (1998), p. 2161
Hännien: Materials Science and Technology Vol. 20 (2004), p. 1506
Tomita: International Journal of Mechanical Sciences Vol. 40 (1998), p. 173
Ferron: International Journal of Mechanical Sciences Vol. 47 (2005), p. 884
Zuo: Materials Science and Engineering A Vol. 552 (2012), p. 514.
Hännien: Materials Science and Technology Vol. 20 (2004), p. 1506
Tomita: International Journal of Mechanical Sciences Vol. 40 (1998), p. 173
Ferron: International Journal of Mechanical Sciences Vol. 47 (2005), p. 884
Zuo: Materials Science and Engineering A Vol. 552 (2012), p. 514.
Online since: February 2015
Authors: Ni Li, Jin Hua Zhou, Wen Jie Ma, Han Zhou Sun, Jing Yang
Worzakowska: Journal of Materials Science, Vol. 44 (6) (2009), p. 4069
[6] R.A.
Swain: Transactions on Electrical and Electronic Materials, Vol. 13 (1) (2012), p. 31 [7] R.
Vijayakumar: Journal of Materials Science, Vol. 46 (14) (2011), p. 4864 [8] G.Y.
Banerjee: Journal of Applied Polymer Science, Vol. 119 (4) (2011), p. 2174 [10] Y.
Wu, et al: Journal of Central South University of Forestry & Technology, Vol. 30 (12) (2010), p. 138 [12] Y.S.
Swain: Transactions on Electrical and Electronic Materials, Vol. 13 (1) (2012), p. 31 [7] R.
Vijayakumar: Journal of Materials Science, Vol. 46 (14) (2011), p. 4864 [8] G.Y.
Banerjee: Journal of Applied Polymer Science, Vol. 119 (4) (2011), p. 2174 [10] Y.
Wu, et al: Journal of Central South University of Forestry & Technology, Vol. 30 (12) (2010), p. 138 [12] Y.S.
Online since: October 2011
Authors: Kun Miao Lü, Dong Mei Gao, Yu Mou
Introduction
As an important inorganic chemical raw material, TiO2 is widely used in paints, plastics, paper, ink, rubber and cosmetics industries since it can show high activity while being chemically and biologically inert as well as inexpensive.
Materials and methods Materials The powder used in this study was purchased from Beijing Nachen S&T Ltd (China) with particle size less than 20 nm and surface area 30 m2/g.
Journal of Colloid and Interface Science. 280 (2004) 400-408
Journal of American Ceramic Society. 3(85) (2002) 523-528
The Journal of Physical Chemistry. 100 (14) (1996) 5868-5873
Materials and methods Materials The powder used in this study was purchased from Beijing Nachen S&T Ltd (China) with particle size less than 20 nm and surface area 30 m2/g.
Journal of Colloid and Interface Science. 280 (2004) 400-408
Journal of American Ceramic Society. 3(85) (2002) 523-528
The Journal of Physical Chemistry. 100 (14) (1996) 5868-5873
Online since: December 2012
Authors: Pradip Kumar Pal, Asish Bandyopadhyay, J. Deb Barma
Abstract: Through Transmission Laser Welding (TTLW) of plastic material is an emerging area of research and welding of plastic.
This paper reports transmission laser welding on acrylic plastic materials by using a diode laser system.
· Through Transmission Laser Welding may prove to be more useful and effective through proper selection of process parameters and judiciary choice of the materials.
A. (2005), “Moisture Effects on Mechanical Performance of Laser-welded Polyamide”, Journal of Reinforced Plastics and Composites ,vol. 24, No. 11
[8] Lee, H-K, Han, H-S, Son, K-J and Hong, S-B (2006), “Optimization of Nd:YAG laser welding parameters for sealing small titanium tube ends”, Materials Science and Engineering, vol.A 415 , pp. 149–155
This paper reports transmission laser welding on acrylic plastic materials by using a diode laser system.
· Through Transmission Laser Welding may prove to be more useful and effective through proper selection of process parameters and judiciary choice of the materials.
A. (2005), “Moisture Effects on Mechanical Performance of Laser-welded Polyamide”, Journal of Reinforced Plastics and Composites ,vol. 24, No. 11
[8] Lee, H-K, Han, H-S, Son, K-J and Hong, S-B (2006), “Optimization of Nd:YAG laser welding parameters for sealing small titanium tube ends”, Materials Science and Engineering, vol.A 415 , pp. 149–155
Online since: September 2011
Authors: Ling Ling Zhang, Jian Hua Fan, Yan Ge Zhang
By the compact of increase of fine materials, the zone which is 0.4m below the surface, capillary tunnels for the migration of water and salts established, they are the most important paths for water’s and salt’s migration in soil.
It can be found from the Table 2 that the size of cation exchange capacity of soil during spring and autumn is not directly related to its depth, but be related to the location of the water level changeable area: it is the water level changeable area that provides a multi-phase material exchanged environment and space for the cation exchange, thus it provides sufficient exchanged material sources and transfer channels for the silt and clay material, and offers essential conditions for the further improvement of alteration process of silt and clay particles to the final clay minerals.
Acknowledgement This work is supported by the Natural Science Foundation of China (grant number: 40872170 , 40672180, 40911120044, 41010109) and Basic Scientific Research Project By Jilin University (200903198).
Jin: Journal of Northeast Normal University (Natural Science Edition), Vol. 38 (2006) No.4, p.124 (In Chinese)
Zhang: Resources Science, Vol. 27 (2005) No.3, p.92 (In Chinese).
It can be found from the Table 2 that the size of cation exchange capacity of soil during spring and autumn is not directly related to its depth, but be related to the location of the water level changeable area: it is the water level changeable area that provides a multi-phase material exchanged environment and space for the cation exchange, thus it provides sufficient exchanged material sources and transfer channels for the silt and clay material, and offers essential conditions for the further improvement of alteration process of silt and clay particles to the final clay minerals.
Acknowledgement This work is supported by the Natural Science Foundation of China (grant number: 40872170 , 40672180, 40911120044, 41010109) and Basic Scientific Research Project By Jilin University (200903198).
Jin: Journal of Northeast Normal University (Natural Science Edition), Vol. 38 (2006) No.4, p.124 (In Chinese)
Zhang: Resources Science, Vol. 27 (2005) No.3, p.92 (In Chinese).
Online since: December 2016
Authors: Cleopatra Florentina Cuciumita, Ionuţ Porumbel, Sterian Dănăilă
Decreasing the combustor temperature will also impact on the need for costly combustor materials and thermal barrier coatings on the combustor liner, enabling a more resource efficient manufacturing.
Decreasing the temperature leads to significant benefit in terms of diminished NOx production, reducing the environmental impact of European air transportation, as well as a need for less temperature resisting materials for the combustor, contributing to a more resource efficient engine.
However, high temperature regions on the walls near the turbine combustion regions may occur, which raises the issue of high temperature resistant materials required for these regions, and / or of developing light and efficient cooling systems able to maintain the wall temperature below the material resistance limits throughout the turbine.
Two-Fluid Magneto-Hydrodynamic Cycle for Nuclear-Electric Power Generation, ARS Journal, 32: 924-924, 1963 [6] Sirignano W.A., Liu F.
Emissions Reduction Technologies for Military Gas Turbine Engines, Journal of Propulsion and Power, 21 (2), 2004 [44] Bunker R.S.
Decreasing the temperature leads to significant benefit in terms of diminished NOx production, reducing the environmental impact of European air transportation, as well as a need for less temperature resisting materials for the combustor, contributing to a more resource efficient engine.
However, high temperature regions on the walls near the turbine combustion regions may occur, which raises the issue of high temperature resistant materials required for these regions, and / or of developing light and efficient cooling systems able to maintain the wall temperature below the material resistance limits throughout the turbine.
Two-Fluid Magneto-Hydrodynamic Cycle for Nuclear-Electric Power Generation, ARS Journal, 32: 924-924, 1963 [6] Sirignano W.A., Liu F.
Emissions Reduction Technologies for Military Gas Turbine Engines, Journal of Propulsion and Power, 21 (2), 2004 [44] Bunker R.S.
Online since: June 2011
Authors: S. Ramanathan, B. Karthikeyan, V. Ramakrishnan
Zweben: Advanced Composite Packaging Materials, Electronic Materials Handbook, Vol. 1 ASM International, Materials Park, OH, (1990)
[5] Wuhua Yuan, Jian Zhang, Chenchen Zhang, and Zhenhua Chen: Processing of ultra-high strength SiCp/Al-Zn-Mg-Cu composites, Journal of Materials Processing Technology, Vol 209, (2009), p. 3251-3255
[10] YiWu Yan, and Lin Geng: Effects of particle size on the thermal expansion behavior of SiCp/Al composites, Journal of Material Science, Vol. 42, (2007), p. 6433-6438
Shivanand: Influence of heat treatment on the coefficient of thermal expansion of Al (6061) based hybrid composites, Materials Science and Engineering A, Vol. 435-436, (2006), p. 745-749
Martin: The thermal expansion of particulate-reinforced composites, Materials Science, Vol. 17, (1982), p. 2309-2323
[5] Wuhua Yuan, Jian Zhang, Chenchen Zhang, and Zhenhua Chen: Processing of ultra-high strength SiCp/Al-Zn-Mg-Cu composites, Journal of Materials Processing Technology, Vol 209, (2009), p. 3251-3255
[10] YiWu Yan, and Lin Geng: Effects of particle size on the thermal expansion behavior of SiCp/Al composites, Journal of Material Science, Vol. 42, (2007), p. 6433-6438
Shivanand: Influence of heat treatment on the coefficient of thermal expansion of Al (6061) based hybrid composites, Materials Science and Engineering A, Vol. 435-436, (2006), p. 745-749
Martin: The thermal expansion of particulate-reinforced composites, Materials Science, Vol. 17, (1982), p. 2309-2323
Online since: January 2013
Authors: Ning Ma, Quan Kun Liu, Ke Su Liu
Investigation on the application of hot forming in the automotive component design
Kesu Liu1,2,3 a, Ning Ma3, b, Quankun Liu1, c
1School of Materials Science and Engineering, Hefei University of Technology, Hefei, China
2Engineering Technology Associates Inc., Shanghai, China
2School of Mechanical Engineering and Automation, Fuzhou University, Fuzhou, China
aliukesu@gmail.com, bningma@china.com, chflqk@163.com
Keywords: Hot forming, three-point bending, light-weighting
Abstract.
Multiple candidates for replacing mild steel in automotive structures have been proposed, such as advanced high strength steels (AHSS) aluminum or magnesium alloys, and composite materials [1-3].
AHSS, in particular, are attractive candidate materials, offering higher strength and the opportunity to reduce weight through use of thinner gauges.
Altan: Stamping Journal, 12(2006), 40-42
Journal of Materials Engineering, 2011, (5):88-92.
Multiple candidates for replacing mild steel in automotive structures have been proposed, such as advanced high strength steels (AHSS) aluminum or magnesium alloys, and composite materials [1-3].
AHSS, in particular, are attractive candidate materials, offering higher strength and the opportunity to reduce weight through use of thinner gauges.
Altan: Stamping Journal, 12(2006), 40-42
Journal of Materials Engineering, 2011, (5):88-92.
Online since: February 2015
Authors: Ramani Mayappan, Nor Aishah Jasli, Hamidi Abd Hamid
Journal of Electronic Materials, 23(8) (1994) 709-713
Journal of Electronic Materials, 32(2) (2003) 63-69
Journal of Electronic Materials, 29(10) (2000) 1207-1213
Journal of Materials Research, 13(10) (1998) 2859-2865
Journal of Electronic Materials, 29(2) (2000) 237-243
Journal of Electronic Materials, 32(2) (2003) 63-69
Journal of Electronic Materials, 29(10) (2000) 1207-1213
Journal of Materials Research, 13(10) (1998) 2859-2865
Journal of Electronic Materials, 29(2) (2000) 237-243
Online since: December 2011
Authors: Akinjide Oluwajobi, Xun Chen
Since then, the use of the simulation method has extended from Physics to Materials Science and now to Mechanical Engineering.
Wainwright: Journal of Chemical Physics, Vol. 31, (1959), p. 459-466 [3] Rentsch R. and I.
Phys A (Materials Science and Processing), Vol. 94, (2009) p.593-600 [6] J.
Lu: Science China Technological Sciences, Vol. 53, No.3, (2010), p. 870-874 [9] W.C.D.
Tanaka: Key Engineering Materials, Vol. 196, (2001), p. 31-42 [10] Z.
Wainwright: Journal of Chemical Physics, Vol. 31, (1959), p. 459-466 [3] Rentsch R. and I.
Phys A (Materials Science and Processing), Vol. 94, (2009) p.593-600 [6] J.
Lu: Science China Technological Sciences, Vol. 53, No.3, (2010), p. 870-874 [9] W.C.D.
Tanaka: Key Engineering Materials, Vol. 196, (2001), p. 31-42 [10] Z.