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Online since: August 2011
Authors: Jian Guo Yu, Xin Sheng Ma, Jun Ru Chen, Shu Cheng Zhang, Yun Long Xu, Hui Ping Li
Effects on dispersion stability and electrical conductivity of modified carbon materials have not been reported yet.
Low value of ID/IG can suggest the perfect crystalline of materials[15].
Lockwood: Journal of dispersion science and technology Vol. 24 (2003), p. 1-42 [8] Kamegawa, K., et al.: Carbon Vol. 40 (2002), p. 1447-1455 [9] Smirnova, A., et al.: Journal of Hydrogen Energy Vol. 34 (2009), p. 8992-8997 [10] Zhou, A., X.
Pasciak: Electrochimica Acta Vol. 55 (2010), p.7501-7505 [13] Wang, G.X., et al.: Journal of power Sources Vol. 146 (2005), p. 521-524 [14] Long, D.H., et al.: New Carbon Materials Vol. 23 (2008), p. 165-170 [15] Zou, L., et al.: Materials Chemistry and Physics Vol. 82 (2003), p. 654-662 [16] Ting, J.H., T.L.
Hong: Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures Vol. 24 (2006), p. 1794 [17]Tantang, H., et al.: Carbon Vol. 47 (2009), p. 1867-1870
Low value of ID/IG can suggest the perfect crystalline of materials[15].
Lockwood: Journal of dispersion science and technology Vol. 24 (2003), p. 1-42 [8] Kamegawa, K., et al.: Carbon Vol. 40 (2002), p. 1447-1455 [9] Smirnova, A., et al.: Journal of Hydrogen Energy Vol. 34 (2009), p. 8992-8997 [10] Zhou, A., X.
Pasciak: Electrochimica Acta Vol. 55 (2010), p.7501-7505 [13] Wang, G.X., et al.: Journal of power Sources Vol. 146 (2005), p. 521-524 [14] Long, D.H., et al.: New Carbon Materials Vol. 23 (2008), p. 165-170 [15] Zou, L., et al.: Materials Chemistry and Physics Vol. 82 (2003), p. 654-662 [16] Ting, J.H., T.L.
Hong: Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures Vol. 24 (2006), p. 1794 [17]Tantang, H., et al.: Carbon Vol. 47 (2009), p. 1867-1870
Online since: September 2013
Authors: Rong Zhen Jin, Nian Suo Xie, Jiao Jiao Li, Jing Che
Study on Compressive Properties of SiC Particle Reinforced ZAlCu5Mn Composite Foams
Rongzhen Jin 1, a, Niansuo Xie 2, b, Jiaojiao Li 3, c, Jing Che4,d
1School of Materials Science and Engineering, Shaanxi University of Technology, shaanxi , Hanzhong, 723003, China
2 School of Materials Science and Engineering, Shaanxi University of Technology, shaanxi , Hanzhong, 723003, China
3School of Materials Science and Engineering, Shaanxi University of Technology, shaanxi , Hanzhong, 723003, China
4School of Materials Science and Engineering, Shaanxi University of Technology, shaanxi , Hanzhong, 723003, China
afenmo163@163.com, bjrzh_style@outlook.com, c18391461835@139.com, dmycomputerjin@163.com
Keywords: SiCp/ZAlCu5Mn composite foams, Melt Foaming Technique, Compression Test, Composite Materials.
Introduction With the progress of science and technology, the requirements on new materials are higher and higher.
The research of mechanical property is the basic for the application of the structure materials[2].
The SiCp/ZAlCu5Mn composite materials were fabricated by melt mixing method.
The microstructure of SiCp/ AlCu5Mn composite materials is analyzed by EPIPHOT-300U inverted microscope model.
Introduction With the progress of science and technology, the requirements on new materials are higher and higher.
The research of mechanical property is the basic for the application of the structure materials[2].
The SiCp/ZAlCu5Mn composite materials were fabricated by melt mixing method.
The microstructure of SiCp/ AlCu5Mn composite materials is analyzed by EPIPHOT-300U inverted microscope model.
Online since: April 2016
Authors: Gang Gang Ai, Jun Wen Wang, Chuan Min Ding, Ya Long Wen, Yan Ming Jia, Lei Fan, Kan Zhang, Ping Liu
Experimental
Materials.
Rolison: Science, Vol. 299 (2003) No.5613, p. 1698
Alivisatos: Science, Vol. 304 (2004) No.5671, p.711
Au: Journal of Catalysis, Vol. 288 (2012) No. 4, p. 54
Song: Material Chemistry, Vol. 20 (2010) No.7, p. 1239
Rolison: Science, Vol. 299 (2003) No.5613, p. 1698
Alivisatos: Science, Vol. 304 (2004) No.5671, p.711
Au: Journal of Catalysis, Vol. 288 (2012) No. 4, p. 54
Song: Material Chemistry, Vol. 20 (2010) No.7, p. 1239
Online since: March 2017
Authors: Tawatchai Charinpanitkul, Kreangkrai Maneeintr
Materials and Methods
Chemicals.
All the materials are used without further purification.
Svendsen: Chemical Engineering Science Vol. 66 (2011), p. 6393 [2] M.
Mather: The Canadian Journal of Chemical Engineering Vol. 52 (1974), p. 803 [7] K.P.
Higashii: International Journal of Greenhouse Gas Control Vol. 17 (2013), p. 99 [9] K.
All the materials are used without further purification.
Svendsen: Chemical Engineering Science Vol. 66 (2011), p. 6393 [2] M.
Mather: The Canadian Journal of Chemical Engineering Vol. 52 (1974), p. 803 [7] K.P.
Higashii: International Journal of Greenhouse Gas Control Vol. 17 (2013), p. 99 [9] K.
Online since: April 2014
Authors: Jan Vanerek, Ester Helanová, Dagmar Palovcikova
The particle boards, oriented strands boards and plywood as the testing materials were chosen.
Materials and methods 2.1.
Uppsala: Swedish University of Agricultural Sciences, 1996
Wood Science, 3 (3), 172-178, 1971 [12] Mizumoto, S.
Journal of the Japanese Forestry Society, 48 (1), 7-11, 1965 [13] Highly, T.L.
Materials and methods 2.1.
Uppsala: Swedish University of Agricultural Sciences, 1996
Wood Science, 3 (3), 172-178, 1971 [12] Mizumoto, S.
Journal of the Japanese Forestry Society, 48 (1), 7-11, 1965 [13] Highly, T.L.
Online since: October 2014
Authors: M.J. Lázaro, C. Alegre, M.J. Nieto-Monge, D. Sebastián, M.E. Gálvez, E. Pastor, R. Moliner
Nitrogen Doped and Functionalized Carbon Materials as Supports for Catalysts in Electro-Oxidation of Methanol
M.J.
Progress of electrochemical capacitor electrode materials: A review.
Journal of Materials Chemistry, 20 (2010) 6746–6758
Journal of Materials Chemistry, 19 (2009) 7830–7838
Catalysis Reviews- Science Engineering, 42 (4) (2000) 481-510
Progress of electrochemical capacitor electrode materials: A review.
Journal of Materials Chemistry, 20 (2010) 6746–6758
Journal of Materials Chemistry, 19 (2009) 7830–7838
Catalysis Reviews- Science Engineering, 42 (4) (2000) 481-510
Online since: February 2015
Authors: Fauziah Abdul Aziz, Nur Amira Mamat Razali, Nur Ain Ibrahim, Sarani Zakaria, Noriean Azraaie, Nurul Aimi Mohd Zainul Abidin
Introduction
Cellulose is the most abundant biomass materials in nature.
Experimental Materials.
Satyanarayana: Journal of Materials Science 21 (1986), p. 51-56
[11] Wada M, Okana, T, Sugyama J, Journal Wood Science 47(2001), p.124-128
O’Connor: Journal of Applied polymer Science 8, (1964) p.1311-1324
Experimental Materials.
Satyanarayana: Journal of Materials Science 21 (1986), p. 51-56
[11] Wada M, Okana, T, Sugyama J, Journal Wood Science 47(2001), p.124-128
O’Connor: Journal of Applied polymer Science 8, (1964) p.1311-1324
Online since: July 2014
Authors: Zhen He, Wen Liu, Xin Hua Cai
The dynamic behaviors of cement-based materials, like concrete, mortar and other cementitious materials, have significant effect on safety of structures in earthquake or under impact loading, such as explosion [6].
Materials and Test Methods Materials and proportions.
The mix proportion of PVA-ECC is: cementitious materials: water: sand = 1:0.24:0.6.
This indicates that its ability to absorb impact energy higher than the previous two materials.
ACI Materials Journal 101.3 (2004)
Materials and Test Methods Materials and proportions.
The mix proportion of PVA-ECC is: cementitious materials: water: sand = 1:0.24:0.6.
This indicates that its ability to absorb impact energy higher than the previous two materials.
ACI Materials Journal 101.3 (2004)
Online since: December 2018
Authors: Jung Won Yoon
Categorization of Smart Materials.
In the field of material science and engineering, smart materials are categorized based upon their material divisions of naturals, metals, ceramics, polymers, and composites.
Designing for durability and resilience protects the building elements by environmental factors and material degradation effects, which may be achieved by self-healing materials, anti-bacterial materials, abrasion-resistant materials, antioxidant materials, self-renewable materials, etc.
Acknowledgement This research was supported by Basic Science Research Program through the National Research Foundation of Korea(NRF) funded by the Ministry of Science, ICT and Future Planning (NRF-2017R1C1B5015080) References [1] S.Guy, G.
Journal of Architectural Education 53, 3 (2001), pp.140-148 [2] D.Chwieduk: Towards sustainable-energy buildings.
In the field of material science and engineering, smart materials are categorized based upon their material divisions of naturals, metals, ceramics, polymers, and composites.
Designing for durability and resilience protects the building elements by environmental factors and material degradation effects, which may be achieved by self-healing materials, anti-bacterial materials, abrasion-resistant materials, antioxidant materials, self-renewable materials, etc.
Acknowledgement This research was supported by Basic Science Research Program through the National Research Foundation of Korea(NRF) funded by the Ministry of Science, ICT and Future Planning (NRF-2017R1C1B5015080) References [1] S.Guy, G.
Journal of Architectural Education 53, 3 (2001), pp.140-148 [2] D.Chwieduk: Towards sustainable-energy buildings.
Online since: February 2021
Authors: Qussay Y. Hamid, Thaer F.A. Al-Sultan, Hussein Mohammed Ibraheem
The materials were tested on two types of sand papers of grit designation 24 and 36.
Materials and Experimental Methods The selections of materials for the experiments were chosen based on their widely used in many engineering applications and their ability to wear.
Then the test run was increased to seven minutes for those three materials.
Mediratta, International Journal of Innovative Research in Science, Engineering and Technology. 2 (5) (May 2013) 1-9
[8] Micro Materials.
Materials and Experimental Methods The selections of materials for the experiments were chosen based on their widely used in many engineering applications and their ability to wear.
Then the test run was increased to seven minutes for those three materials.
Mediratta, International Journal of Innovative Research in Science, Engineering and Technology. 2 (5) (May 2013) 1-9
[8] Micro Materials.