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Online since: January 2013
Authors: A Qiang Sun
Packaging materials having high absorbency draw the ink deeply into the packaging materials and the optical density of the image formed at the packaging materials surface is reduced.
Salmen: Journal of Material Science, Vol. 37 (2002), p.151-156
Moss: Journal of Pulp and Paper Science, Vol.23 (1997), p.J34-J39
Asrey: Journal of Applied Polymer Science, Vol.66 (1997), p.1789-1794
Ridgway: Journal of Colloid and Interface Science Vol.252 (2002), p.373-382
Salmen: Journal of Material Science, Vol. 37 (2002), p.151-156
Moss: Journal of Pulp and Paper Science, Vol.23 (1997), p.J34-J39
Asrey: Journal of Applied Polymer Science, Vol.66 (1997), p.1789-1794
Ridgway: Journal of Colloid and Interface Science Vol.252 (2002), p.373-382
Online since: July 2015
Authors: Norul Ernida Zainal Abidin, Ahmad Farhan Hamzah, Mohd Haziman Wan Ibrahim, Ramadhansyah Putra Jaya, Norwati Jamaluddin
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: November 2025
Authors: Dhiraj Rajendra Jadhav, Prajitsen G. Damle, Satish R. More
The findings bridge the gap between material science and mechanical engineering, providing a foundation for designing orthopaedic joint replacement materials with improved durability and longevity.
4.
Sáenz de Viteri et al., “Development of Ti-C-N coatings with improved tribological behaviour and antibacterial properties,” Journal of Mechanical Behaviour of Biomedical materials 55 (2015) 75-86. doi: 10.1016/j.jmbbm.2015.10.020
Niinomi, “Mechanical properties of biomedical titanium alloys,” Materials Science and Engineering A243 (1998) 231–236
Liu, “The Tribological Behaviours of Three Films Coated on Biomedical Titanium Alloy by Chemical Vapor Deposition,” Journal of Materials Engineering and Performance 24(2015) 4462–4474. doi: 10.1007/s11665-015-1732-6
Al-Aqeeli, “Surface Modification of Metallic Biomaterials for Better Tribological Properties: A Review,” Arabian Journal for Science and Engineering Springer Verlag,42(2017) 4493–4512. doi: 10.1007/s13369-017-2624-x
Sáenz de Viteri et al., “Development of Ti-C-N coatings with improved tribological behaviour and antibacterial properties,” Journal of Mechanical Behaviour of Biomedical materials 55 (2015) 75-86. doi: 10.1016/j.jmbbm.2015.10.020
Niinomi, “Mechanical properties of biomedical titanium alloys,” Materials Science and Engineering A243 (1998) 231–236
Liu, “The Tribological Behaviours of Three Films Coated on Biomedical Titanium Alloy by Chemical Vapor Deposition,” Journal of Materials Engineering and Performance 24(2015) 4462–4474. doi: 10.1007/s11665-015-1732-6
Al-Aqeeli, “Surface Modification of Metallic Biomaterials for Better Tribological Properties: A Review,” Arabian Journal for Science and Engineering Springer Verlag,42(2017) 4493–4512. doi: 10.1007/s13369-017-2624-x
Online since: August 2010
Authors: Shi Rong Li, Feng Xi Zhou, Yuan Ming Lai, Yan Yang
Introduction
Functionally graded materials (FGM) are heterogeneous materials in which the elastic and thermal
properties change from one surface to the other, gradually and continuously.
The material is constructed by smoothly changing the volume fraction of its constituent materials.
Kwon and M.Crimp: Composites and Functionally Graded Materials.
V.Wood: Journal of Materials Science.
Weng: International Journal of Engineering Science.
The material is constructed by smoothly changing the volume fraction of its constituent materials.
Kwon and M.Crimp: Composites and Functionally Graded Materials.
V.Wood: Journal of Materials Science.
Weng: International Journal of Engineering Science.
Online since: April 2023
Authors: O.A. Belitskaya, E.G. Panferova, A.R. Sokolovskiy, A.A. Fokina, V.S. Belgorodskiy
Materials used in the exterior elements of shoe tops.
Materials No. 8, 10, 13 show smaller values about 20-25 seconds.
Belitskaya, Research of the modern market of materials used for special-purpose footwear, Technologies, design, science, education in the context of inclusion: Collection of scientific papers, Part 2, M .: RSU im.
Sciences, M .: 2006, p. 158
Panferova, Testing the Electrical Resistance of Materials for Protective Footwear Production, IOP Conference Series: Materials Science and Engineering.
Materials No. 8, 10, 13 show smaller values about 20-25 seconds.
Belitskaya, Research of the modern market of materials used for special-purpose footwear, Technologies, design, science, education in the context of inclusion: Collection of scientific papers, Part 2, M .: RSU im.
Sciences, M .: 2006, p. 158
Panferova, Testing the Electrical Resistance of Materials for Protective Footwear Production, IOP Conference Series: Materials Science and Engineering.
Online since: August 2013
Authors: Guo Fu
China
afuguo_47@126.com
Keywords: Reinforced concrete columns, Ultimate displacement angle, High-strength materials, Inter-story drift angle
Abstract.
In order to easily distinguish between high-strength materials and ordinary materials, high-strength materials are defined as concrete strength grade ≥ C50, longitudinal reinforcement strength grade ≥ HRB500, stirrups reinforcement strength grade ≥ HRB400 in this paper.
ACI Materials Journal, 1994,91(2):336-45 [7] Tao Xie, Zhaoyuan Chen.
Journal of Shenyang Jianzhu University (Natural Science), 2006,22(01):7-10 [11] Yue Qi, Wen-zhong Zheng.
Journal of Hunan University(Natural Sciences), 2009,36(12):6-12.
In order to easily distinguish between high-strength materials and ordinary materials, high-strength materials are defined as concrete strength grade ≥ C50, longitudinal reinforcement strength grade ≥ HRB500, stirrups reinforcement strength grade ≥ HRB400 in this paper.
ACI Materials Journal, 1994,91(2):336-45 [7] Tao Xie, Zhaoyuan Chen.
Journal of Shenyang Jianzhu University (Natural Science), 2006,22(01):7-10 [11] Yue Qi, Wen-zhong Zheng.
Journal of Hunan University(Natural Sciences), 2009,36(12):6-12.
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: 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: 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: March 2022
Authors: Di Li
It can combine several deferent materials, such as, metal materials, non-metal materials and medical biological materials.
Science the AM processing is still development in a high speed, Because of that, if we want to widely use the AM materials, we need to have more understand about how can we make it more economically and more useful.
International journal of fatigue 85 (2016): 130-143
International journal of fatigue 48 (2013): 300-307
International journal of fatigue 94 (2017): 202-210
Science the AM processing is still development in a high speed, Because of that, if we want to widely use the AM materials, we need to have more understand about how can we make it more economically and more useful.
International journal of fatigue 85 (2016): 130-143
International journal of fatigue 48 (2013): 300-307
International journal of fatigue 94 (2017): 202-210