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Online since: October 2018
Authors: Xiao Meng Guo, Peng Zhang, Xu Feng Zhang, Jiang Meng, Xue Fen Zhao, Qing Heng Zeng, Qing Wei Dai
Experimental Materials and Methods
The experiment selects 5 materials: N80, 3Cr, H13, 13Cr and super 13Cr.
Journal of Henan University of Science and Technology (NATURAL SCIENCE EDITION), pp. 100-103+110, 2003.
Research progress on low Cr corrosion resistant pipe materials at home and abroad, [J]. material guide, pp. 72-76, 2009.
Study on [J]. steel H13 homogenization and spheroidization process of Inner Mongolia University of Science and Technology journal, pp. 322-325, 2011.
Li, "Electrochemical and Sulfide Stress Corrosion Cracking Behaviors of Tubing Steels in a H2S/CO2 Annular Environment," Journal of Materials Engineering and Performance, vol. 23, pp. 1279-1287, 2014
Journal of Henan University of Science and Technology (NATURAL SCIENCE EDITION), pp. 100-103+110, 2003.
Research progress on low Cr corrosion resistant pipe materials at home and abroad, [J]. material guide, pp. 72-76, 2009.
Study on [J]. steel H13 homogenization and spheroidization process of Inner Mongolia University of Science and Technology journal, pp. 322-325, 2011.
Li, "Electrochemical and Sulfide Stress Corrosion Cracking Behaviors of Tubing Steels in a H2S/CO2 Annular Environment," Journal of Materials Engineering and Performance, vol. 23, pp. 1279-1287, 2014
Online since: July 2012
Authors: Hui Qun Cao, Hong Wei Mi, Hong Yuan Sun, Jian Hong Liu, Shuang Quan Wu, Han Ping Zhou, Jing Zhong Chen
All the materials show comparable ESR at about 2 Ω.
Acknowledgements Financial support for this work is provided by the foundation of Shenzhen Key Laboratory of functional polymers (FP20110010) and Key Laboratory of New lithium-ion battery and mesoporous cathode materials (20110207,20110204) and Chinese academy of science special inorganic coating key lab open project provided by Chinese academy of science special inorganic coating key lab).
Simon, Materials science - electrochemical capacitors for energy management, Science. 321 (2008) 651-652
Gogotsi, Materials for electrochemical capacitors, Nature Materials. 7 (2008) 845-854
Novoselov, The rise of graphene, Nature Materials. 6 (2007) 183-191
Acknowledgements Financial support for this work is provided by the foundation of Shenzhen Key Laboratory of functional polymers (FP20110010) and Key Laboratory of New lithium-ion battery and mesoporous cathode materials (20110207,20110204) and Chinese academy of science special inorganic coating key lab open project provided by Chinese academy of science special inorganic coating key lab).
Simon, Materials science - electrochemical capacitors for energy management, Science. 321 (2008) 651-652
Gogotsi, Materials for electrochemical capacitors, Nature Materials. 7 (2008) 845-854
Novoselov, The rise of graphene, Nature Materials. 6 (2007) 183-191
Online since: May 2011
Authors: Yun Wang
Analysis of ordinary modified materials
Gelled materials.
It’s common that raw-soil is modified by gelled materials in China.
Modifying earth materials with industrial waste are increasing, and Wang Qin[4] use Calcined desulfurized gypsum and fluidized bed combustion ashes to improve the properties of adobe materials.
(in Chinese) [6] Zhi-neng Gao, Xiao-dong Yang, Zhong Tao, Experimental Study of Rammed -Earth Wall with Bamboo Cane under Monotonic Horizontal-Load, Journal of Kunming University of Science and Technology ( Science and Technology).
(in Chinese) [8] Jun Liu, Da-peng Yuan, Hong-hong Zhou, Impact of Green Bristle Grass on Mechanical Properties of Reinforced Adobe, Journal of Shenyang Architecture University(Natural Science), Vol. 26, issue 4, 720-723,2010.
It’s common that raw-soil is modified by gelled materials in China.
Modifying earth materials with industrial waste are increasing, and Wang Qin[4] use Calcined desulfurized gypsum and fluidized bed combustion ashes to improve the properties of adobe materials.
(in Chinese) [6] Zhi-neng Gao, Xiao-dong Yang, Zhong Tao, Experimental Study of Rammed -Earth Wall with Bamboo Cane under Monotonic Horizontal-Load, Journal of Kunming University of Science and Technology ( Science and Technology).
(in Chinese) [8] Jun Liu, Da-peng Yuan, Hong-hong Zhou, Impact of Green Bristle Grass on Mechanical Properties of Reinforced Adobe, Journal of Shenyang Architecture University(Natural Science), Vol. 26, issue 4, 720-723,2010.
Online since: May 2022
Authors: Mohamed Amin, Nirmen Abdelaziz, Ibrahim Saad Agwa, Khaled Abu El-Hassan
Materials properties
2.1.1Cement and mineral materials.
Mineral materials types 2.1.2.
Materials Journal, 84 (1987), 124-129
Journal of Cleaner Production, 273 (2020), 123073
Applied Clay Science, 43 (2009), 392-400
Mineral materials types 2.1.2.
Materials Journal, 84 (1987), 124-129
Journal of Cleaner Production, 273 (2020), 123073
Applied Clay Science, 43 (2009), 392-400
Online since: February 2026
Authors: Christophe Herbelot, Abdelatif Imad, Papa Birame Gning, Gollé Diouf, Mouhamadou Moustapha Sarr
Journal of Materials, Processes and Environment, 2(1), 51-57
Journal of Composite Materials, 55(20), 2777-2792
Advances in Materials Science and Engineering, 2024(1), 8834268
Bulletin of materials science, 32, 65-76
Journal of materials science, 39(1), 331-334
Journal of Composite Materials, 55(20), 2777-2792
Advances in Materials Science and Engineering, 2024(1), 8834268
Bulletin of materials science, 32, 65-76
Journal of materials science, 39(1), 331-334
Online since: May 2014
Authors: Éric Maire, Philippe Boisse, Julien Schneider, Naim Naouar, Emmanuelle Vidal-Sallé
Indeed, analysis of the internal structure of materials in general, and woven materials especially, recently led to major advances.
Whitcomb, General techniques for exploiting periodicity and symmetries in micromechanics analysis of textile composites, Journal of Composite Materials. 37 (2003) 1167-1189
Peix, X-Ray Tomography in Material Science.
Billoet, Analysis of the mechanical behavior of woven fibrous material using virtual tests at the unit cell level, Journal of Materials Science. 40 (2005) 5955-5962
Hanklar, Mechanical behaviour of dry fabric reinforcements. 3D simulations versus biaxial tests, Computational Materials Science. 17 (2000) 7-20.
Whitcomb, General techniques for exploiting periodicity and symmetries in micromechanics analysis of textile composites, Journal of Composite Materials. 37 (2003) 1167-1189
Peix, X-Ray Tomography in Material Science.
Billoet, Analysis of the mechanical behavior of woven fibrous material using virtual tests at the unit cell level, Journal of Materials Science. 40 (2005) 5955-5962
Hanklar, Mechanical behaviour of dry fabric reinforcements. 3D simulations versus biaxial tests, Computational Materials Science. 17 (2000) 7-20.
Online since: April 2014
Authors: Siti Noor Azizzati Mohd Noor, Jamaluddin Mahmud
Significance of Skin and Hyperelastic Materials Study.
Furthermore, the application of hyperelastic materials has been expanded in several industrial areas such as absorbers, hydraulic hoses, vehicles tires and etc. [25].
Despite tensile testing, there are other materials testing methods being used to evaluate the skin’s properties such as suction, compression [13], and indentation [14].
The optimization of FEM’s parameters and boundaries can create close correlation with the experimental data and therefore lead to the identification of materials parameters.
[2] Particle Sciences Drug Development Services : Particle Sciences, Inc.
Furthermore, the application of hyperelastic materials has been expanded in several industrial areas such as absorbers, hydraulic hoses, vehicles tires and etc. [25].
Despite tensile testing, there are other materials testing methods being used to evaluate the skin’s properties such as suction, compression [13], and indentation [14].
The optimization of FEM’s parameters and boundaries can create close correlation with the experimental data and therefore lead to the identification of materials parameters.
[2] Particle Sciences Drug Development Services : Particle Sciences, Inc.
Online since: August 2021
Authors: Vahid Hassani, Hamid Ahmad Mehrabi, Carl Gregg, Roger William O'Brien, Iñigo Flores Ituarte, Tegoeh Tjahjowidodo
Doubrovski, Multi-material 3D printing of functionally graded hierarchical soft-hard composites, Journal of Advanced Engineering Materials, (2020) 1901142
Shea, Tensile properties of multi-material interfaces in 3D printed parts, Journal of Materials and Design, 162 (2019) 1-9
Tjahjowidodo, A hysteresis model for a stacked-type piezoelectric actuator, Journal of Mechanics of Advanced Materials and Structures, 24 (2017) 73-87
Kitamura, An objective function for the topology optimization of sound-absorbing materials, Journal of Sound and Vibration, 443 (2019) 804-819
Rosen, Design and additive manufacture of functionally graded structures based on digital materials, Journal of Additive Manufacturing, 30 (2019)
Shea, Tensile properties of multi-material interfaces in 3D printed parts, Journal of Materials and Design, 162 (2019) 1-9
Tjahjowidodo, A hysteresis model for a stacked-type piezoelectric actuator, Journal of Mechanics of Advanced Materials and Structures, 24 (2017) 73-87
Kitamura, An objective function for the topology optimization of sound-absorbing materials, Journal of Sound and Vibration, 443 (2019) 804-819
Rosen, Design and additive manufacture of functionally graded structures based on digital materials, Journal of Additive Manufacturing, 30 (2019)
Online since: June 2014
Authors: Yan Dan Huang, Ying Bin Lin, Zhi Gao Huang
Ying, et al., Optimized LiFePO4–Polyacene Cathode Material for Lithium-Ion Batteries, Advanced Materials, 18 (2006) 2609-2613
Yang, Developments of lithium-ion batteries and challenges of LiFePO4 as one promising cathode material, Journal of materials science, 44 (2009) 2435-2443
Xu, Enhanced electrochemical performance of LiFePO4 coated with Li0.34La0.51TiO2.94 by rheological phase reaction method, Materials Science and Engineering: B, 178 (2013) 1503-1508
Feng, The preparation and electrochemical performances of LiFePO4 multiwalled nanotubes composite cathode materials for lithium ion batteries, Materials Chemistry and Physics, 121 (2010) 302-307
Zhou, et al., Electrochemical performance of LiFePO4/Si composites as cathode material for lithium ion batteries, Materials Chemistry and Physics, 138 (2013) 313-318.
Yang, Developments of lithium-ion batteries and challenges of LiFePO4 as one promising cathode material, Journal of materials science, 44 (2009) 2435-2443
Xu, Enhanced electrochemical performance of LiFePO4 coated with Li0.34La0.51TiO2.94 by rheological phase reaction method, Materials Science and Engineering: B, 178 (2013) 1503-1508
Feng, The preparation and electrochemical performances of LiFePO4 multiwalled nanotubes composite cathode materials for lithium ion batteries, Materials Chemistry and Physics, 121 (2010) 302-307
Zhou, et al., Electrochemical performance of LiFePO4/Si composites as cathode material for lithium ion batteries, Materials Chemistry and Physics, 138 (2013) 313-318.
Online since: January 2013
Authors: Ya Lan Li, Wei Peng Guo, Wen Tao Jiang, Yu Bo Fan, Qingyuan Wang
Lab., Sichuan University,Chengdu 610065,China;
2 Key Lab for Biomechanics & Mechanobiology of Ministry of Education,School of Biological Science & Medical Engineering, Beihang University,Beijing,100191,China)
alylzx18@163.com, bscubme@yahoo.com.cn
Keywords: shaping amplitude; titanium implant; material strength; plastic deformation
Abstract.
However, according to the relationship between the plastic deformation and elastic modulus of metallic materials, if the material properties of titanium and its alloys, aluminum, steel and other metal materials are same, as well as the elastic modulus decreases with plastic deformation, the stress in the shaping area is reduced.
Study on biomechanical properties of nanostructured titanium[J].Journal of Medical Biomechanics, 2007 22(3):P282-286.
Journal of Mater Processing Technology, 1996, 57 (1-2):48-54
International Journal of Plasticity, 2002, 18 (5-6) :63-65
However, according to the relationship between the plastic deformation and elastic modulus of metallic materials, if the material properties of titanium and its alloys, aluminum, steel and other metal materials are same, as well as the elastic modulus decreases with plastic deformation, the stress in the shaping area is reduced.
Study on biomechanical properties of nanostructured titanium[J].Journal of Medical Biomechanics, 2007 22(3):P282-286.
Journal of Mater Processing Technology, 1996, 57 (1-2):48-54
International Journal of Plasticity, 2002, 18 (5-6) :63-65