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Online since: June 2021
Authors: Sheng Zhong Kou, Rui Xian Ding, Ye Jiang, Jian Jun Fan
Materials, 2017, 10(6):625
Materials Letters, 2006, 60(9-10):1256-1260
Rare Metal Materials & Engineering, 2014, 43(7):1558-1561
Journal of Materials Science and Technology, 2018, 34(4):605-612
Journal of Materials Science Letters, 2002, 21(18):1419-1422
Materials Letters, 2006, 60(9-10):1256-1260
Rare Metal Materials & Engineering, 2014, 43(7):1558-1561
Journal of Materials Science and Technology, 2018, 34(4):605-612
Journal of Materials Science Letters, 2002, 21(18):1419-1422
Online since: December 2018
Authors: Monir Mia, Md. Nazru Islam, Md.Mahmudur Rahman, Mohammad Bellal Hoque, Mohammad Shahriar Kabir, A.M. Sarwaruddin Chowdhury, Md. Sahadat Hossain
Materials Sciences and Applications, 2018, 9, 246-257. doi: 10.4236/msa.2018.92016
Materials Sciences and Applications, 7, 349-357. doi: 10.4236/msa.2016.77031
Materials Sciences and Applications, 9, 174-190. doi: 10.4236/msa.2018.91012
Journal of Thermoplastic Composite Materials, Vol. 25-March 2012 249
Journal of Thermoplastic Composite Materials [76] Azim AYMA*.
Materials Sciences and Applications, 7, 349-357. doi: 10.4236/msa.2016.77031
Materials Sciences and Applications, 9, 174-190. doi: 10.4236/msa.2018.91012
Journal of Thermoplastic Composite Materials, Vol. 25-March 2012 249
Journal of Thermoplastic Composite Materials [76] Azim AYMA*.
Online since: September 2013
Authors: Jyun Hong Shen, Jao Jia Horng, Pei Chi Lu
Hence, for using more energy from sunlight researchers modified materials to be able to achieve high photo-catalytic efficiency under Vis [6-8].
Materials and Experimental Method Preparation of Materials.
Lu: Journal of Hazardous Materials Vol. 162 (2009), pp. 945-953
Gohar: Journal of Hazardous Materials Vol. 170 (2009), pp. 560-569
Lu: Journal of Hazardous Materials Vol. 162 (2009), pp. 945-953.
Materials and Experimental Method Preparation of Materials.
Lu: Journal of Hazardous Materials Vol. 162 (2009), pp. 945-953
Gohar: Journal of Hazardous Materials Vol. 170 (2009), pp. 560-569
Lu: Journal of Hazardous Materials Vol. 162 (2009), pp. 945-953.
Online since: July 2015
Authors: D. Ramana Reddy, M.V. Aditya Nag, M.S.N. Gupta
The maximum shear stresses included are observed to be much less than the Yield strength of materials.
In all the load cases, the maximum principal stresses experienced by the aircraft’s fuel tank are observed to be much less than the ultimate stress of the material.
Also in the static test pressure load case, which is considered to be the critical among all the other cases, the maximum shear stresses included are observed to be much less than the Yield strength of materials (345Mpa).
"Challenges in comparing numerical solutions for optimum weights of stiffened shells", Journal of spacecraft and rockets, 40(2), 183-192
[9] Sartaj Patel, Mahesha.K, Harish E.R.M, “Stress Analysis of Fuel Access Cut out of the bottom skin of a transport aircraft”, International Journal of Innovative Research in Science, Engineering and Technology, Vol. 2, Issue 7, July 2013
In all the load cases, the maximum principal stresses experienced by the aircraft’s fuel tank are observed to be much less than the ultimate stress of the material.
Also in the static test pressure load case, which is considered to be the critical among all the other cases, the maximum shear stresses included are observed to be much less than the Yield strength of materials (345Mpa).
"Challenges in comparing numerical solutions for optimum weights of stiffened shells", Journal of spacecraft and rockets, 40(2), 183-192
[9] Sartaj Patel, Mahesha.K, Harish E.R.M, “Stress Analysis of Fuel Access Cut out of the bottom skin of a transport aircraft”, International Journal of Innovative Research in Science, Engineering and Technology, Vol. 2, Issue 7, July 2013
Research on the Preparation of Carbon Fiber Reinforced Calcium Silicate Hydrates Insulating Material
Online since: December 2014
Authors: Guo Zhong Li, Xia Zhang, Cong Ke Wang, Rui Zhang, Chuan Wei Du
At present, the calcium silicate products industry as a whole is lag behind developed countries, and poorly equipped, low content of science and technology, single technology, product performance is not stable and so on.
Experiment Experiment materials Calcareous material: the calcareous material for quick lime used, the limestone under 1000 ℃ calcination.
Experiment Results and Discussion Effect of stirring technology on properties of calcium silicate insulation materials Dynamic hydrothermal method as opposed to the static method, namely stirring the slurry constantly under the conditions of high temperature and high pressure, and the solid particles suspended in a solution, ensures the reaction between materials.
Effect of fiber adding process on the performance of calcium silicate insulation material Admixture Follow-up process Siliceous materials Carbon fiber Mixed Calcareous material Water Pressing Slurry Dynamic hydrothermal reaction Fig. 2.2 The fiber and concrete mixing process Compact structure of carbon fiber causes the existence of molecular forcestrong its intermolecular, the carbon fiber in the matrix is extremely easy to wound and reunion, the formation of local structural defects could not improve the role but greatly reduce the comprehensive properties of the materials.
References [1] Liu Xi-tai: Energy Saving of Non-Ferrous Metallurgy, (1999), p.1-4 [2] Ni Wen, Zou Yi-ping, Chen De-ping: Journal of Mineralogy and Petrology, (1998), p.28-30 [3] Ceng Wen-zhi: Guangdong Building Materials, (2000), p.25-29 [4] Xing Feng: Journal of the Chinese Ceramic Society, (2000), p.116-124
Experiment Experiment materials Calcareous material: the calcareous material for quick lime used, the limestone under 1000 ℃ calcination.
Experiment Results and Discussion Effect of stirring technology on properties of calcium silicate insulation materials Dynamic hydrothermal method as opposed to the static method, namely stirring the slurry constantly under the conditions of high temperature and high pressure, and the solid particles suspended in a solution, ensures the reaction between materials.
Effect of fiber adding process on the performance of calcium silicate insulation material Admixture Follow-up process Siliceous materials Carbon fiber Mixed Calcareous material Water Pressing Slurry Dynamic hydrothermal reaction Fig. 2.2 The fiber and concrete mixing process Compact structure of carbon fiber causes the existence of molecular forcestrong its intermolecular, the carbon fiber in the matrix is extremely easy to wound and reunion, the formation of local structural defects could not improve the role but greatly reduce the comprehensive properties of the materials.
References [1] Liu Xi-tai: Energy Saving of Non-Ferrous Metallurgy, (1999), p.1-4 [2] Ni Wen, Zou Yi-ping, Chen De-ping: Journal of Mineralogy and Petrology, (1998), p.28-30 [3] Ceng Wen-zhi: Guangdong Building Materials, (2000), p.25-29 [4] Xing Feng: Journal of the Chinese Ceramic Society, (2000), p.116-124
Online since: October 2013
Authors: Jun Tang Yuan, Zhen Hua Wang, Biao Yang, Yao Yang
For different joint surface, two assumptions are made as follows:
(1)Dynamic performance of joint surfaces in all conditions (including different materials, preload, surface roughness, processing methods, media, etc) can be equivalent by characteristics of virtual material layer, and the specific pressure of joint surfaces is a constant.
Acknowledgements This work was sponsored by the National Natural Science Foundation of China under Grant no.51105207.
Dong, et al: Research on the dynamic normal characteristic parameters of joint surface, Chinese Journal of Mechanical Engineering, vol.29, no.3(1993), p. 74-78
Zeng, et al: Theoretic analysis on and application of behaviors of machine tool joints, Chinese Journal of Mechanical Engineering, vol. 44, no. 12(2008),p. 208-214
Liu et al: A new method of virtual material hypothesis-based dynamic modeling on fix joint interface in machine tool, International Journal of Machine Tools& Manufacture, vol.51(2011), p. 45-50
Acknowledgements This work was sponsored by the National Natural Science Foundation of China under Grant no.51105207.
Dong, et al: Research on the dynamic normal characteristic parameters of joint surface, Chinese Journal of Mechanical Engineering, vol.29, no.3(1993), p. 74-78
Zeng, et al: Theoretic analysis on and application of behaviors of machine tool joints, Chinese Journal of Mechanical Engineering, vol. 44, no. 12(2008),p. 208-214
Liu et al: A new method of virtual material hypothesis-based dynamic modeling on fix joint interface in machine tool, International Journal of Machine Tools& Manufacture, vol.51(2011), p. 45-50
Online since: December 2013
Authors: Dong Lin Zhao, Yang Yang Zhu, Jing Xing Zhang, Qing He
The electrochemical properties of the above samples as anode materials for LIBs were measured in a two electrode system.
Song, Journal of Power Sources Vol.175 (2008), p.558
Verbrugge, Advanced Functional Materials, Vol.22 (2012), p.1647
Zhang, Energy and Environmental Science, Vol. 4 (2011),p.3611
Chen, Materials Chemistry and Physics,Vol.118 (2009), p. 367
Song, Journal of Power Sources Vol.175 (2008), p.558
Verbrugge, Advanced Functional Materials, Vol.22 (2012), p.1647
Zhang, Energy and Environmental Science, Vol. 4 (2011),p.3611
Chen, Materials Chemistry and Physics,Vol.118 (2009), p. 367
Online since: December 2014
Authors: Ji Shan Li, Ri Dong Liao, Guo Hua Chen
Introduction
Many materials had a spatially varying microstructure that led to spatial variation in elastic properties and thus a nonhomogeneous model should be established to meet the needs of describing the material properties.
Recently, authors were interested in the development of graded materials which had spatial property variations deliberately created to improve mechanical performance [1].
In this paper, a FEM model of the crankshaft was established to study the effect of the nonhomogeneous materials properties on the structure strength of the induction quenched crankshaft.
The distributed loads were applied to the connecting rod journal to simulate the explosion pressure.
Suresh: Science, Vol. 292 (2001), p. 2447
Recently, authors were interested in the development of graded materials which had spatial property variations deliberately created to improve mechanical performance [1].
In this paper, a FEM model of the crankshaft was established to study the effect of the nonhomogeneous materials properties on the structure strength of the induction quenched crankshaft.
The distributed loads were applied to the connecting rod journal to simulate the explosion pressure.
Suresh: Science, Vol. 292 (2001), p. 2447
Online since: December 2017
Authors: A.G. Barbosa de Lima, R.Q. da Costa Melo
Shackelford, Materials Science For Engineers, six. ed., Peason Prentice Hall, New Jersey, 2005
Ashby, Materials and design: art and science of material selection in product design, Elsevier, Rio de Janeiro, 2011 (In Portuguese)
Thesis in Science and Materials Engineering.
Mattoso, Journal Appl.
In Congress on Materials Science of Mercosul.
Ashby, Materials and design: art and science of material selection in product design, Elsevier, Rio de Janeiro, 2011 (In Portuguese)
Thesis in Science and Materials Engineering.
Mattoso, Journal Appl.
In Congress on Materials Science of Mercosul.
Online since: October 2015
Authors: Peter Mihalka, Peter Matiasovsky
A wider range was observed for macroporous materials [8].
Typical BET plots for representatives of the analysed materials are in Fig. 1.
Typical FHH plots for representatives of the analysed materials are in Fig. 2.
In case of mesoporous materials the equation is realistic in the range of 53 – 94%.
Journal of Chemical Physics 16 (1948) 931–937
Typical BET plots for representatives of the analysed materials are in Fig. 1.
Typical FHH plots for representatives of the analysed materials are in Fig. 2.
In case of mesoporous materials the equation is realistic in the range of 53 – 94%.
Journal of Chemical Physics 16 (1948) 931–937