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Online since: February 2006
Authors: Xing Ai, Zhan Qiang Liu, Zhao Hui Wang
Zhang: Journal of Materials Science, Vol.37 (2002), pp.3935
Moylan et al: Metallurgical and Materials Transactions A, Vol.33 (2002), pp.1245
Rajmohan: Materials and Manufacturing Process, Vol.18 (2003) pp.245
Chou: Journal of Materials Processing Technology, Vol.124 (2002), pp.171
[9] J.Kopac: Journal of Materials Processing Technology, Vol.109 (2001), pp.96.
Moylan et al: Metallurgical and Materials Transactions A, Vol.33 (2002), pp.1245
Rajmohan: Materials and Manufacturing Process, Vol.18 (2003) pp.245
Chou: Journal of Materials Processing Technology, Vol.124 (2002), pp.171
[9] J.Kopac: Journal of Materials Processing Technology, Vol.109 (2001), pp.96.
Online since: May 2011
Authors: Xiao Jun Wang, Qiang Lei, Kui Zhao
The model is created by according to mining model of underhand drift, the parameters of various materials are based on field investigation, which is shown in Table1.
The net is 200(mm)×200(mm), the material is the steel wire.
Mechanics of materials.
Beijing: Science Press,1978.
International Journal of Structural Engineering, Vol. 1(1)(2009), pp. 40
The net is 200(mm)×200(mm), the material is the steel wire.
Mechanics of materials.
Beijing: Science Press,1978.
International Journal of Structural Engineering, Vol. 1(1)(2009), pp. 40
Online since: August 2014
Authors: Guo He, Xiao Chuan Wang, Guang Yong Zhao
The mechanical properties of the diaphragm capsule materials are shown in table 1.
Table 1 The mechanical properties of the diaphragm capsule materials material Elastic modulus (GPa) Poisson’s ratio Density (Kg/m3) 3J1 196 0.3 8000 Fig.2 The finite element model of the diaphragm capsule Simulation Analysis of the Elastic Characteristic Based on the finite element model above, enforce constraints on the corresponding position and constrain the freedom according to technological process, the apply pressure load on its surface.
Journal of Macau University of Science and Technology, 2009 (3) 111-115 [4] Reissner, E.
Journal of Applied Mechanics, 1945 (12) 68
Science Press, 2006
Table 1 The mechanical properties of the diaphragm capsule materials material Elastic modulus (GPa) Poisson’s ratio Density (Kg/m3) 3J1 196 0.3 8000 Fig.2 The finite element model of the diaphragm capsule Simulation Analysis of the Elastic Characteristic Based on the finite element model above, enforce constraints on the corresponding position and constrain the freedom according to technological process, the apply pressure load on its surface.
Journal of Macau University of Science and Technology, 2009 (3) 111-115 [4] Reissner, E.
Journal of Applied Mechanics, 1945 (12) 68
Science Press, 2006
Online since: September 2013
Authors: Xin Ran Zhang, Wei Guang Li, Peng Fei Ren
Material and methods
Materials and chemicals.
Acknowledgements This work was financially supported by the Research Foundation of Harbin Institute of Technology (JC200708) References [1] Lin H C, Wang G S: Desalination. 270 (2011), p. 221-226 [2] Hussain S, Leeuwen J V, Chow C: Chemical Engineering Journal.
Vol. 6 (2013), P. 59-77 [4] Katsoyiannis I A, Canonica S: Water Research, Vol. 45 (2011),p. 3811-3822 [5] Khataee A: Environmental technology, Vol. 31 (2010),p. 73-86 [6] Nowell L H, Hoigné J: Water Research, Vol. 26 (1992),p. 599-605 [7] Hansen K, Zortea R, Piketty A: Science of the Total Environment, Vol. 443 (2013),p. 850-856 [8] Kim H, Shim J, Lee S: Chemosphere, Vol. 46 (2002),p. 123-130 [9] Wang D, Bolton J R, Hofmann R: Water Research, Vol. 46 (2012),p. 4677-4686 [10] Sichel C, Garcia C, Andre K: Water Research, Vol. 45 (2011),p. 6371-6380 [11] Watts M J, Rosenfeldt E J, Linden K G: Journal of water supply: research and technology.
Vol. 56 (2007),p. 469-477 [12] Jin J, El-Din M G, Bolton J R: Water Research, Vol.45 (2011),p. 1890-1896 [13] Kasiri M, Khataee A: Environmental technology, Vol.33 (2012),p. 1417-1425 [14] Zhang J, Fu D, Xu Y: Journal of Environmental Sciences, Vol.22 (2010),p. 1281-1289 [15] Yang Y, Li Y, Zhang Y: Separation and Purification Technology, Vol.76 (2010),p. 72-78 [16] Sahoo C, Gupta A: Journal of Hazardous Materials, Vol. 215–216 (2012),p. 302-310 [17] Trinh T K, Kang L S: Chemical Engineering Research and Design, Vol. 89 (2011), p. 1126-1135 [18] Sarathy S R, Mohseni M: Environmental Science & Technology, Vol. 41 (2007), p. 8315-8320 [19] Watts M J, Linden K G: Water Research, Vol. 41 (2007), p. 2871-2878 [20] Feng Y, Smith D W, Bolton J R: Journal of Environmental Engineering and Science, Vol. 6 (2007), p 277-284
Acknowledgements This work was financially supported by the Research Foundation of Harbin Institute of Technology (JC200708) References [1] Lin H C, Wang G S: Desalination. 270 (2011), p. 221-226 [2] Hussain S, Leeuwen J V, Chow C: Chemical Engineering Journal.
Vol. 6 (2013), P. 59-77 [4] Katsoyiannis I A, Canonica S: Water Research, Vol. 45 (2011),p. 3811-3822 [5] Khataee A: Environmental technology, Vol. 31 (2010),p. 73-86 [6] Nowell L H, Hoigné J: Water Research, Vol. 26 (1992),p. 599-605 [7] Hansen K, Zortea R, Piketty A: Science of the Total Environment, Vol. 443 (2013),p. 850-856 [8] Kim H, Shim J, Lee S: Chemosphere, Vol. 46 (2002),p. 123-130 [9] Wang D, Bolton J R, Hofmann R: Water Research, Vol. 46 (2012),p. 4677-4686 [10] Sichel C, Garcia C, Andre K: Water Research, Vol. 45 (2011),p. 6371-6380 [11] Watts M J, Rosenfeldt E J, Linden K G: Journal of water supply: research and technology.
Vol. 56 (2007),p. 469-477 [12] Jin J, El-Din M G, Bolton J R: Water Research, Vol.45 (2011),p. 1890-1896 [13] Kasiri M, Khataee A: Environmental technology, Vol.33 (2012),p. 1417-1425 [14] Zhang J, Fu D, Xu Y: Journal of Environmental Sciences, Vol.22 (2010),p. 1281-1289 [15] Yang Y, Li Y, Zhang Y: Separation and Purification Technology, Vol.76 (2010),p. 72-78 [16] Sahoo C, Gupta A: Journal of Hazardous Materials, Vol. 215–216 (2012),p. 302-310 [17] Trinh T K, Kang L S: Chemical Engineering Research and Design, Vol. 89 (2011), p. 1126-1135 [18] Sarathy S R, Mohseni M: Environmental Science & Technology, Vol. 41 (2007), p. 8315-8320 [19] Watts M J, Linden K G: Water Research, Vol. 41 (2007), p. 2871-2878 [20] Feng Y, Smith D W, Bolton J R: Journal of Environmental Engineering and Science, Vol. 6 (2007), p 277-284
Online since: January 2012
Authors: Zai Sheng Cai, Li Ming Wang, Ying Ding, Yong Shen
Both of these two means exhibit problems as far as how to make textile surface display photocatalyst functions and the possible deterioration of the fiber materials due to the presence of the photocatalysts.
Yang, Application of Nanometer TiO2 in Fabric Finishing, Journal of Textile Research. 27 (2006) 99-102
Modification and Dispersion of Nanosilica, Journal of Dispersion Science and TechnoLogy. 25 (2004) 837-848
Surface modification of TiO2 nanoparticles by polyaniline, Applied Surface Science. 217 (2003) 16-22
M., Surface modification of oxidic nanoparticles using 3-methacryloxyproltrimethoxysilane, Journal of Colloid Interface Science. 269 (2004) 109-116.
Yang, Application of Nanometer TiO2 in Fabric Finishing, Journal of Textile Research. 27 (2006) 99-102
Modification and Dispersion of Nanosilica, Journal of Dispersion Science and TechnoLogy. 25 (2004) 837-848
Surface modification of TiO2 nanoparticles by polyaniline, Applied Surface Science. 217 (2003) 16-22
M., Surface modification of oxidic nanoparticles using 3-methacryloxyproltrimethoxysilane, Journal of Colloid Interface Science. 269 (2004) 109-116.
Online since: February 2014
Authors: Mirosław Wróbel, Brigitte Bacroix, Alain Lodini, Marcin Wronski, Andrzej Baczmański, Krzysztof Wierzbanowski, Lucjan Pytlik
Introduction
Symmetric rolling is commonly used in industrial practice and a huge majority of materials is formed in such a way.
N, Lee, Analysis of deformation textures of asymmetrically rolled steel sheets, International Journal of Mechanical Sciences, 43 (2001) 1997–2015 [3] S.
Baudin, Texture Evolution in Invar® Deformed by Asymmetrical Rolling, Materials Science Forum, 550 (2007) 551-556 [4] S.
Lodini, Internal Stresses in two Phase Polycrystalline Materials, Archives of Metallurgy, 44 (1999) 39- 50 [9] A.
Wierzbanowski, Incompatibility Stresses and Elastic Energy Stored in Polycrystalline Materials, Mater.
N, Lee, Analysis of deformation textures of asymmetrically rolled steel sheets, International Journal of Mechanical Sciences, 43 (2001) 1997–2015 [3] S.
Baudin, Texture Evolution in Invar® Deformed by Asymmetrical Rolling, Materials Science Forum, 550 (2007) 551-556 [4] S.
Lodini, Internal Stresses in two Phase Polycrystalline Materials, Archives of Metallurgy, 44 (1999) 39- 50 [9] A.
Wierzbanowski, Incompatibility Stresses and Elastic Energy Stored in Polycrystalline Materials, Mater.
Online since: September 2015
Authors: Cho Pei Jiang, Zong Han Huang
Journal of Materials Processing Technology,119(1): p. 307-311.(2001)
Computational Materials Science, 68: p. 132-137. (2013)
Progress in materials science,45(2): p. 103-189.(2000)
Materials Science and Engineering: A, 577: p. 43-47. (2013)
Progress in Materials Science, 53(6): p. 893-979. (2008)
Computational Materials Science, 68: p. 132-137. (2013)
Progress in materials science,45(2): p. 103-189.(2000)
Materials Science and Engineering: A, 577: p. 43-47. (2013)
Progress in Materials Science, 53(6): p. 893-979. (2008)
Online since: February 2020
Authors: Yao Dong Gu, Yao Meng, Li Yang, Andy Wu, Xin Yan Jiang
Different materials are selected with respect to their functional requirements, especially in sports shoes.
The materials of soft and hard custom insoles were same and consisted of two layers: the upper layer is in foam; the lower layer is in thermoplastic.
All the materials have been widely used in modern markets.
Preliminary Investigation on the Reduction of Plantar Loading Pressure with Different Insole Materials (Srp–Slow Recovery Poron®, P–Poron®, Ppf–Poron®+ Plastazote, Firm and Pps–Poron®+ Plastazote, Soft).
Journal of Foot & Ankle Surgery, 41, 300-308
The materials of soft and hard custom insoles were same and consisted of two layers: the upper layer is in foam; the lower layer is in thermoplastic.
All the materials have been widely used in modern markets.
Preliminary Investigation on the Reduction of Plantar Loading Pressure with Different Insole Materials (Srp–Slow Recovery Poron®, P–Poron®, Ppf–Poron®+ Plastazote, Firm and Pps–Poron®+ Plastazote, Soft).
Journal of Foot & Ankle Surgery, 41, 300-308
Online since: January 2012
Authors: Jun Feng Hu, Da Chang Zhu, Qiang Chen
In order to satisfy stringent requirements for precision control and lightweight miniaturization, smart materials such as shape memory alloys, piezoceramics, electroorheological fluids and magnetorheological fluids are frequently adopted for controllable structures.
Piezoelectric materials can be effectively used for active vibration control with fast response and easy implementation [1- 3].
Mayhan combined intelligent control and smart materials to produce an adaptive and robust controller to dampen the fundamental vibration mode of the system in the presence of modeling uncertainties [7].
Smart Materials and Structures Vol. 13 (5) (2004), p. 1143–1154 [4] G.
Journal of Sound and Vibration Vol. 243(1) (2001), p. 145-155
Piezoelectric materials can be effectively used for active vibration control with fast response and easy implementation [1- 3].
Mayhan combined intelligent control and smart materials to produce an adaptive and robust controller to dampen the fundamental vibration mode of the system in the presence of modeling uncertainties [7].
Smart Materials and Structures Vol. 13 (5) (2004), p. 1143–1154 [4] G.
Journal of Sound and Vibration Vol. 243(1) (2001), p. 145-155
Online since: December 2012
Authors: Kolawole Bankole Lateef, S.A. Rezan Sheikh Abdul Hamid, Mohd Sharif Nurulakmal
Materials and Methodology
The Scheil-Gulliver model was first applied to slag solidification to characterize the solidification behavior of mineral phase formation in a modified EAF slag system.
The SEM analysis reveals the heterogeneity of these materials that are made up of particle aggregates of different structures and sizes.
Matsuno: Japanese Journal of Soil Science and Plant Nutrition Vol. 72 (2001), pp. 484 -488
Zak: Environmental Science and Technology Vol. 34 (2000), pp. 1576 - 1582
Ostrovski: Metallurgical and Materials Transactions B, 37B (2007), pp. 773 - 780
The SEM analysis reveals the heterogeneity of these materials that are made up of particle aggregates of different structures and sizes.
Matsuno: Japanese Journal of Soil Science and Plant Nutrition Vol. 72 (2001), pp. 484 -488
Zak: Environmental Science and Technology Vol. 34 (2000), pp. 1576 - 1582
Ostrovski: Metallurgical and Materials Transactions B, 37B (2007), pp. 773 - 780