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Online since: May 2019
Authors: Bin Huan Sun, Yu Lin Li
[10] Hou G H, Luo J H and Chen J W: Journal of Materials Science and Engineering.
[16] Yuan S, Liu Z and Ma S.: Materials Review.
[22] S Chah, J H Fendler and J Yi: Journal of Colloid and Interface Science.
[48] Zhao Q P, Yang C, Li X R, Song G J and Cong L L: Journal of Bohai University (Natural Science Edition).
[52] Zhu C L, Song X Y and et al.: Journal of Materials Chemistry.
[16] Yuan S, Liu Z and Ma S.: Materials Review.
[22] S Chah, J H Fendler and J Yi: Journal of Colloid and Interface Science.
[48] Zhao Q P, Yang C, Li X R, Song G J and Cong L L: Journal of Bohai University (Natural Science Edition).
[52] Zhu C L, Song X Y and et al.: Journal of Materials Chemistry.
Online since: November 2011
Authors: Hui Zhao, Zhen Song
A variety of materials flow along the trajectory of the life cycle, forming material flow; a variety of energy flow along the path of transformation, use, discharge, forming energy flow[1].
The material to be analyzed are elements, raw materials, products, finished goods, waste and its emission.
Acknowledgment The Project Supported by Tian Jin Natural Science Foundation(08JCZDJC18600,09JCZDJC23900 , 10JCZDJC23100), University Science and Technology Development Foundation of Tianjin (2006ZD32,SB20080069).
[2] Hinterberger, Luks F, Schmidt Bleek, “Material Flows as Natural Capital What Makes an Economy Sustainable[J]”, Vol.25 No.9, Ecological Economics, 1997 [3] Yi Liu, “Material Flow and Restructuring in China[J]”, Journal of Industrial Ecology, Vol.8, No.1.2004
[6] Sakurai, Yuryo, “Magnetic Levitation of an Iron Ball[J]”, Journal of Applied Physics, Vol. 104, No.4..2008
The material to be analyzed are elements, raw materials, products, finished goods, waste and its emission.
Acknowledgment The Project Supported by Tian Jin Natural Science Foundation(08JCZDJC18600,09JCZDJC23900 , 10JCZDJC23100), University Science and Technology Development Foundation of Tianjin (2006ZD32,SB20080069).
[2] Hinterberger, Luks F, Schmidt Bleek, “Material Flows as Natural Capital What Makes an Economy Sustainable[J]”, Vol.25 No.9, Ecological Economics, 1997 [3] Yi Liu, “Material Flow and Restructuring in China[J]”, Journal of Industrial Ecology, Vol.8, No.1.2004
[6] Sakurai, Yuryo, “Magnetic Levitation of an Iron Ball[J]”, Journal of Applied Physics, Vol. 104, No.4..2008
Online since: December 2013
Authors: Zazuli Mohid, Erween Abdul Rahim, M.R.A. Rahman, M.A. Liman, N.H. Rafai
These melting parts will then attached and form joint materials.
The material properties of both materials are listed in Table 1.
Rossi, Pulsed Nd:YAG laser beam welding of AISI 316L stainless steel thin foils, Journal of Materials Processing Technology. 210 ( 2010) 1838-1843 [2] B.
Sınmazcelik, Laser welding of Ti6Al4V titanium alloys, Journal of Material Processing Technology. 209 (2008) 3705-3713 [5] Z.
Kuar, Souren Mitra, Dipten Misra, Finite element simulation of laser transmission welding of dissimilar material between polyvinylidene fluoride and titanium, International Journal of Engineering, Science and Technology. 4 (2010) 176-186
The material properties of both materials are listed in Table 1.
Rossi, Pulsed Nd:YAG laser beam welding of AISI 316L stainless steel thin foils, Journal of Materials Processing Technology. 210 ( 2010) 1838-1843 [2] B.
Sınmazcelik, Laser welding of Ti6Al4V titanium alloys, Journal of Material Processing Technology. 209 (2008) 3705-3713 [5] Z.
Kuar, Souren Mitra, Dipten Misra, Finite element simulation of laser transmission welding of dissimilar material between polyvinylidene fluoride and titanium, International Journal of Engineering, Science and Technology. 4 (2010) 176-186
Online since: February 2011
Authors: Jian Xu, Pei Xian Zhu, Hui Yu Ma, Sheng Gang Zhou
Characterization of Ti-Al and Ti-Cu Laminated Composite Electrode Materials
Jian Xua, Peixian Zhub , Huiyu Mac, Shenggang Zhoud
Faculty of Material Science and Engineering, Kunming University of Science and Technology, Kunming, Yunnan, 650093, China
awoteu@163.com, bzhu_pei_xian@163.com, cmahuiyu1985@163.com, dzsgandyliu@126.com,
Keywords: Layered Composite; Electrode; Ti-A; Ti-Cu, Conductivity; Electrocatalytic.
Characterization of Ti-Al and Ti-Cu laminated composite materials activity.
Fig.2 LSV curves of different coating electrodes Figure 3 shows the cyclic voltammetry curves of different substrate materials coating IrO2-Ta2O5 anode.
[7] V Paníc, A Dekanski, G Wang:Journal of Colloid and Interface Science,2003,263:68–73
(In Chinese) [12] LI Ya-jiang, Gerasimov S A., WANG Juan:Materials Science and Technology,2007,15(2):206-210
Characterization of Ti-Al and Ti-Cu laminated composite materials activity.
Fig.2 LSV curves of different coating electrodes Figure 3 shows the cyclic voltammetry curves of different substrate materials coating IrO2-Ta2O5 anode.
[7] V Paníc, A Dekanski, G Wang:Journal of Colloid and Interface Science,2003,263:68–73
(In Chinese) [12] LI Ya-jiang, Gerasimov S A., WANG Juan:Materials Science and Technology,2007,15(2):206-210
Online since: May 2021
Authors: Akram R. Jabur, Ahmed H. Oleiwi, Qusay F. Alsalhy
Journal of membrane science 394 (2012): 37-48
Biomedical Materials 13.1 (2017): 015010
Journal of materials science 41.17 (2006): 5704-5708
International Journal of Thin Films Science and Technology 5.2 (2016): 1-9
Karbala International Journal of Modern Science 1.4 (2015): 187-193
Biomedical Materials 13.1 (2017): 015010
Journal of materials science 41.17 (2006): 5704-5708
International Journal of Thin Films Science and Technology 5.2 (2016): 1-9
Karbala International Journal of Modern Science 1.4 (2015): 187-193
Online since: July 2020
Authors: Xiang Li, Liang Zhao, Qian Huang, Hua Yin Sun
Experimental Method and Process
Raw Materials.
Effects of temperature gradient on the damage of zirconia metering nozzle, International Journal of Minerals, Metallurgy, and Materials, 2017, 24(9): 999-1003
Effects of the Precipitation of Stabilizers on the Mechanism of Grain Fracturing in a Zirconia Metering Nozzle, International Journal of Minerals, Metallurgy, and Materials, 2016, 23(9): 1041-1047
Effect of Various Surface Treatments on the Bond Strength Between Composite Resin and Zirconia Veneering Ceramic, Science of Advanced Materials, 2015, 7(1): 57-62
Corrosion Mechanism of Calcium Oxide Partially Stabilized Zirconia by an Alkaline Steel Slag, Science of Advanced Materials, 2019, 11(4): 483-488
Effects of temperature gradient on the damage of zirconia metering nozzle, International Journal of Minerals, Metallurgy, and Materials, 2017, 24(9): 999-1003
Effects of the Precipitation of Stabilizers on the Mechanism of Grain Fracturing in a Zirconia Metering Nozzle, International Journal of Minerals, Metallurgy, and Materials, 2016, 23(9): 1041-1047
Effect of Various Surface Treatments on the Bond Strength Between Composite Resin and Zirconia Veneering Ceramic, Science of Advanced Materials, 2015, 7(1): 57-62
Corrosion Mechanism of Calcium Oxide Partially Stabilized Zirconia by an Alkaline Steel Slag, Science of Advanced Materials, 2019, 11(4): 483-488
Online since: September 2020
Authors: Shi Rong Li, Da Fu Cao, Peng Xiong
Acknowledgements
This work was supported by the Natural Science Foundation of China (No. 11672260).
Zhang, Thermoelastic damping in asymmetric three-layered microbeam resonators, Journal of Applied Mechanics. 83(2016): 061002-1
Mechanical Science, 106(2016): 128-137
Mechanics and Materials in Design,11(2015): 357–369
Xiong, Thermoelastic damping in functionally graded material circular micro plates, Journal of Thermal Stresses 41(2018): 1396-1412.
Zhang, Thermoelastic damping in asymmetric three-layered microbeam resonators, Journal of Applied Mechanics. 83(2016): 061002-1
Mechanical Science, 106(2016): 128-137
Mechanics and Materials in Design,11(2015): 357–369
Xiong, Thermoelastic damping in functionally graded material circular micro plates, Journal of Thermal Stresses 41(2018): 1396-1412.
Online since: June 2013
Authors: Feng Qi Han, Zhi Zun Li, De Yuan Zhang
Smaller LG and larger LT can be selected for materials similar to 30CrMnSi.
The basic parameters of materials used in experiments are shown in Table 1.
So 30CrMnSi is the easiest to be cut among three materials.
Wang:Journal of Materials Processing Technology Vol.132(2003), p. 345 [4] R.D.
Ding: Journal of Northeastern University (Natural Science) Vol.19 (1998), p.306(In Chinese)
The basic parameters of materials used in experiments are shown in Table 1.
So 30CrMnSi is the easiest to be cut among three materials.
Wang:Journal of Materials Processing Technology Vol.132(2003), p. 345 [4] R.D.
Ding: Journal of Northeastern University (Natural Science) Vol.19 (1998), p.306(In Chinese)
Online since: December 2011
Authors: Wei Wei Yu, Xuan Guo
Damage Model for Dissipative Materials with Generalized Non-Linear Strength Theory
YU WeiWei1, a, GUO Xuan2,b
1School of statistics, Capital university of economics and business, Beijing, 100070, China
2School of Civil Engineering, Beijing Jiaotong University, Beijing 100044, China
awowo8830@163.com, bxguo@bjtu.edu.cn
Keywords: damage model, dissipative materials, generalized non-linear strength theory
Abstract.
This paper builds the formulations of damage model for dissipative materials with generalized non-linear strength theory.
Recently, the time-independent constitutive modeling for porous and multi-phase nanocrystalline materials and a simple phenomenological model for describing the macroscopic constitutive response of ferroelectric materials have been developedin the correlative field.
Chaboche,J.L.Mechanics of solid materials.
Yu,, Chinese Journal of Geotechnical En-gineering (in Chinese), Vol.16(2) (1994), p. 1
This paper builds the formulations of damage model for dissipative materials with generalized non-linear strength theory.
Recently, the time-independent constitutive modeling for porous and multi-phase nanocrystalline materials and a simple phenomenological model for describing the macroscopic constitutive response of ferroelectric materials have been developedin the correlative field.
Chaboche,J.L.Mechanics of solid materials.
Yu,, Chinese Journal of Geotechnical En-gineering (in Chinese), Vol.16(2) (1994), p. 1
Online since: April 2013
Authors: Ahmad Mohd Izzat, Liyana Jamaludin, Che Mohd Ruzaidi Ghazali, Mohd Mustafa Al Bakri Abdullah, Kamarudin Hussin, Mohammed Binhussain
Introduction
Geopolymers may represent new material types on the border among glass, ceramic materials and materials based on classical inorganic bonds [1].
Materials that use less natural resources, require less energy, and generate less CO2 are referred to as green materials.
Journal of Materials Science, Vol. 42 (2007) p. 2917-2933
Davidovits, Geopolymer: Inorganic polymeric new materials.: Journal of Thermal Analysis and Calorimetry, Vol. 37 (1991) p. 1633-1656
Izzat, Fly Ash Porous Material using Geopolymerization Process for High Temperature Exposure, International Journal of Molecular Science (2012) 13, p. 4388-4395
Materials that use less natural resources, require less energy, and generate less CO2 are referred to as green materials.
Journal of Materials Science, Vol. 42 (2007) p. 2917-2933
Davidovits, Geopolymer: Inorganic polymeric new materials.: Journal of Thermal Analysis and Calorimetry, Vol. 37 (1991) p. 1633-1656
Izzat, Fly Ash Porous Material using Geopolymerization Process for High Temperature Exposure, International Journal of Molecular Science (2012) 13, p. 4388-4395