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Online since: July 2015
Authors: Mohd Haziman Wan Ibrahim, Norwati Jamaluddin, Ramadhansyah Putra Jaya, Norul Ernida Zainal Abidin, Ahmad Farhan Hamzah
ISCA Journal of Engineering Sciences, 2012. 1(1): p. 35-39
Master of Science Penang
ACI Materials Journal, 2004. 101(2)
International Journal of Computer, Information, and Systems Science, and Engineering, 2007. 1(4): p. 259-262
ACI Materials Journal, 2003. 100(5).
Master of Science Penang
ACI Materials Journal, 2004. 101(2)
International Journal of Computer, Information, and Systems Science, and Engineering, 2007. 1(4): p. 259-262
ACI Materials Journal, 2003. 100(5).
Online since: December 2023
Authors: Takeo Muroga
Katoh, Journal of Nuclear Materials 560 (2022) 153494
Taylor, Journal of Nuclear Materials 68 (1977) 19-31
Journal of Nuclear Materials 15 (2011) 306-310
Bauer, Journal of Nuclear Materials 296 (2001) 43-53
Was, Fundamentals of Radiation Materials Science, Springer (2007) Chapter 11
Taylor, Journal of Nuclear Materials 68 (1977) 19-31
Journal of Nuclear Materials 15 (2011) 306-310
Bauer, Journal of Nuclear Materials 296 (2001) 43-53
Was, Fundamentals of Radiation Materials Science, Springer (2007) Chapter 11
Online since: March 2018
Authors: Daniel Popescu, Corina Cernăianu
The following paper indicates variants of new materials obtained with various organic alloy elements.
In extreme temperatures, the resistance to traction, elongation and tear can be much higher than for conventional rubber, though still low in comparison to other materials.
Likewise, liquid silicone rubber, i.e. a highly pure silica silicone, has been used for manufacturing the new materials.
Popescu, Research Contract-Technologies to recover and use the rubber materials in composite insulators with external insulation.
(Eds.), (2009), Handbook of Sealant Technology, CRC Press, p. 328-332, ISBN 9781420008630 [13] Brydson, John (1999), Plastics Materials, Butterworth, 9th Ed [14] Lewis, PR, Reynolds, K. and Gagg, C (2004), Forensic Materials Engineering: Case Studies, CRC Press [15] "Characteristic Properties of Silicone Rubber Compounds" by Shin-Etsu Co
In extreme temperatures, the resistance to traction, elongation and tear can be much higher than for conventional rubber, though still low in comparison to other materials.
Likewise, liquid silicone rubber, i.e. a highly pure silica silicone, has been used for manufacturing the new materials.
Popescu, Research Contract-Technologies to recover and use the rubber materials in composite insulators with external insulation.
(Eds.), (2009), Handbook of Sealant Technology, CRC Press, p. 328-332, ISBN 9781420008630 [13] Brydson, John (1999), Plastics Materials, Butterworth, 9th Ed [14] Lewis, PR, Reynolds, K. and Gagg, C (2004), Forensic Materials Engineering: Case Studies, CRC Press [15] "Characteristic Properties of Silicone Rubber Compounds" by Shin-Etsu Co
Online since: January 2014
Authors: Yong Hua Sheng
[4] Lu C, Chen P, Yu Q. : Journal of Applied Polymer Science, Vol. 106 (2007), p. 1733-1741. [5] Jang J, Yang H J.: Journal of Materials Science, Vol. 35(2000), 2297-2303.
(In Chinese) [9] Qi Hongyu, Wen Weidong: Materials Review, Vol. 1(2001), p. 36-38
[11] Zhang Congfang: Journal of Beijing University of Science and Technology, Vol. 4 (2000), p. 354-357
[18] Liu Li, Fu Hongjun, Huang Yudong, Yang Min: Journal of aerospace materials, Vol. 2(2005), p. 60-62
[21] Fang Qinzhi, Li Huimin, Wang Tiejun: Chinese Journal of Polymer Science, Vol. 10(2007), p. 712-714.
(In Chinese) [9] Qi Hongyu, Wen Weidong: Materials Review, Vol. 1(2001), p. 36-38
[11] Zhang Congfang: Journal of Beijing University of Science and Technology, Vol. 4 (2000), p. 354-357
[18] Liu Li, Fu Hongjun, Huang Yudong, Yang Min: Journal of aerospace materials, Vol. 2(2005), p. 60-62
[21] Fang Qinzhi, Li Huimin, Wang Tiejun: Chinese Journal of Polymer Science, Vol. 10(2007), p. 712-714.
Online since: July 2013
Authors: Ji Huan He, Liang Wang, Lan Xu, Lu Feng Mo
All materials were used without any further purification.
Tuan, F.K .Ko, Electrospun nanofibrous structure: A novel scaffold for tissue engineering, Journal of Biomedical Materials Research. 60 (2002) 613-621
Advanced Materials. 22 (2010) 754
Liu, Electrospun nanoporous materials: reality, potential and challenges, Materials Science and Technology. 26(2010) 1304-1308
Chen, Superhydrophobic surface directly created by electrospinning based on hydrophilic material, Journal of Materials Science. 41 (2006) 3793-3797
Tuan, F.K .Ko, Electrospun nanofibrous structure: A novel scaffold for tissue engineering, Journal of Biomedical Materials Research. 60 (2002) 613-621
Advanced Materials. 22 (2010) 754
Liu, Electrospun nanoporous materials: reality, potential and challenges, Materials Science and Technology. 26(2010) 1304-1308
Chen, Superhydrophobic surface directly created by electrospinning based on hydrophilic material, Journal of Materials Science. 41 (2006) 3793-3797
Online since: December 2012
Authors: Ke Pan, Shouan Guan
A SOMNN Model for Transport Risk Assessment of Hazardous Materials by Rail
Ke Pana, Shouan Guanb
aSchool of Civil and Safety Engineering, Dalian Jiaotong University, Dalian,116028,China
bLiaoning Academy of Safety Science, Shenyang, 110004, China
Keyword: Railway siding for transport of hazardous materials; Risk pattern classification; SOMNN; Multi-attribute risk assessment;
Abstract.
This model provides a new method for transport risk assessment of hazardous materials by rail.
Petroleum and its subsidiary products are the main hazardous materials transporting by rail.
Transport risk assessment model of hazardous materials by rail based on SOMNN The establishment of risk assessment index system for transport of hazardous materials by rail.
Risk analysis for road and rail transport of hazardous materials: a simplified approach.
This model provides a new method for transport risk assessment of hazardous materials by rail.
Petroleum and its subsidiary products are the main hazardous materials transporting by rail.
Transport risk assessment model of hazardous materials by rail based on SOMNN The establishment of risk assessment index system for transport of hazardous materials by rail.
Risk analysis for road and rail transport of hazardous materials: a simplified approach.
Online since: October 2013
Authors: Ming Dong Yi, Xing Hai Wang, Chong Hai Xu, Guang Chun Xiao, Jun Ma
Introduction
In recent years, with the ceramic materials being extensively used, the study on their friction and wear properties has become one of the important research topics in the interdisciplinary fields of materials science and tribology.
It suggests that the materials are ideal die materials.
[6] Jun Qu, Weihao Xiong, Dameng Ye, et al: International Journal of Refractory Metals & Hard Materials Vol. 28(2010), p.243
[7] Shiquan Zhou, Wei Zhao, Weihao Xiong: International Journal of Refractory Metals & Hard Materials Vol. 27(2009), p. 26
[9] Guo Zhixing, Xiong Ji, Yang Mei, et al: International Journal of Refractory Metals & Hard Materials Vol. 27(2009), p. 781
It suggests that the materials are ideal die materials.
[6] Jun Qu, Weihao Xiong, Dameng Ye, et al: International Journal of Refractory Metals & Hard Materials Vol. 28(2010), p.243
[7] Shiquan Zhou, Wei Zhao, Weihao Xiong: International Journal of Refractory Metals & Hard Materials Vol. 27(2009), p. 26
[9] Guo Zhixing, Xiong Ji, Yang Mei, et al: International Journal of Refractory Metals & Hard Materials Vol. 27(2009), p. 781
Online since: April 2020
Authors: Chuan Xin Li
Hexagonal crystal system materials have very important applications in modern society.
The low-temperature-sintered hexagonal ferrites are widely applied in Multilayer-Chip-Inductor (MLCI) which is key components in 5G era. [4] Meanwhile, the research of synthesis and properties of super-hard materials, such as hexagonal boron nitride (h-BN) material, has been a focus of solid state physics and material science. [5,6] As stated above, hexagonal B-N and hexagonal ferrites are all hexagonal crystal system materials and they have played very important roles in our modern society.
Journal of Inner Mongolia Normal University (Natural Science Edition), 2019, 48(3):200-204
Growth of two dimensional materials on hexagonal boron nitride (h-BN).
Science, 2004, 306(10): 666-669
The low-temperature-sintered hexagonal ferrites are widely applied in Multilayer-Chip-Inductor (MLCI) which is key components in 5G era. [4] Meanwhile, the research of synthesis and properties of super-hard materials, such as hexagonal boron nitride (h-BN) material, has been a focus of solid state physics and material science. [5,6] As stated above, hexagonal B-N and hexagonal ferrites are all hexagonal crystal system materials and they have played very important roles in our modern society.
Journal of Inner Mongolia Normal University (Natural Science Edition), 2019, 48(3):200-204
Growth of two dimensional materials on hexagonal boron nitride (h-BN).
Science, 2004, 306(10): 666-669
Online since: September 2014
Authors: Xi Bin Yi, Xiu Chun Wang, Jing Zhang, Kai Shang, Qian Wang, Jun Wei
3D Printing Technology and the Adaptability of Printing Material
WANG Xiu-Chun1,a, WEI Jun1,a, YI Xi-Bin1,a, ZHANG Jing1,a, SHANG Kai1,a, WANG Qian2,a
1 Institute of New Materials, Shandong Academy of Sciences, China
2 Shandong Province Economic and Information Technology Development Institute, China
awangxch@sdas.org
Keywords: 3D printer, materials, technology, application.
The high power laser melting and the powder sending or filamentary materials are used synchronously in LMD 3D printer, and the materials are deposited by directly stacked.
The powder material of 3DP may be plastic powder, gypsum, sand or other inorganic materials.
Fund: Natural Science Foundation of Shandong Province(ZR2010EL015) References [1] P.Dong, J.L.Chen: Chinese Journal of Aerospace Manufacturing Technology, Vol.1(2014), p.1
[2] X.Y.Gong, M.K.Liu, Y.Li: Chinese Journal of Laser, Vol.39(2012), p.1
The high power laser melting and the powder sending or filamentary materials are used synchronously in LMD 3D printer, and the materials are deposited by directly stacked.
The powder material of 3DP may be plastic powder, gypsum, sand or other inorganic materials.
Fund: Natural Science Foundation of Shandong Province(ZR2010EL015) References [1] P.Dong, J.L.Chen: Chinese Journal of Aerospace Manufacturing Technology, Vol.1(2014), p.1
[2] X.Y.Gong, M.K.Liu, Y.Li: Chinese Journal of Laser, Vol.39(2012), p.1
Online since: March 2015
Authors: Yi Zhe Huang, Tie Liang Yang, Hua Bing Mao
Besides of the above mentioned studies, porous materials and structures, such as honeycombs and foams arouse the interest of researchers, because of the long-plateau range and controllable plateau stress.
The plateau phase, is the dominant characteristic of crushing in porous materials, and corresponds to permanent deformation via the plastic buckling, this deformation process is restorable if the material is linear elasticity.
International Journal of Mechanical Sciences, 55 (2012) 22-29
Journal of Fluid Mechanics, 253 (1993) 245 - 265
International Journal of Mechanical Sciences, 39 (1997) 69-86
The plateau phase, is the dominant characteristic of crushing in porous materials, and corresponds to permanent deformation via the plastic buckling, this deformation process is restorable if the material is linear elasticity.
International Journal of Mechanical Sciences, 55 (2012) 22-29
Journal of Fluid Mechanics, 253 (1993) 245 - 265
International Journal of Mechanical Sciences, 39 (1997) 69-86