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Online since: September 2013
Authors: Mimi Azlina Abu Bakar, Wahyu Kuntjoro, Sahrim Ahmad, Salmiah Kasolang
Experiments
Materials
The epoxy used in this study was supplied by Vistec Technology Sdn Bhd.
Tripathy: Journal of Composites Science and Technology 63, (2003), p1377 [2] H.D.
Mathur: Construction and Building Materials 20, (2006), p470 [6] D.
Kuntjoro: Journal of Biobased Materials and Bioenergy 4(2), (2010), p159 [9] S.
Chou: Materials Science and Technology, Germany: VCH New York (1993)
Tripathy: Journal of Composites Science and Technology 63, (2003), p1377 [2] H.D.
Mathur: Construction and Building Materials 20, (2006), p470 [6] D.
Kuntjoro: Journal of Biobased Materials and Bioenergy 4(2), (2010), p159 [9] S.
Chou: Materials Science and Technology, Germany: VCH New York (1993)
Online since: August 2014
Authors: Yong Xiang Huang, Yu Chun Jiang, Yuan Song Zhang
Carbon nanotube(CNT) is a new type of nanoscale materials, which has excellent adsorption and mechanical properties.
Carbon nanotube which found by the Japanese scientist LiJima in 1991, is a new type of nanoscale materials [3].
Experimental Materials Raw materials: silk fiber (Southwest University, Chongqing, China), carbon nanotube (Shenzhen nano harbour Corporation Ltd).
[2] Han Zhang, Jun Magoshi, Mary Beckers, et al: Journal of Applied Polymer Science.
[8] Yudong Xin, Xiaodong Liu: Journal of donghua university of science and technology.
Carbon nanotube which found by the Japanese scientist LiJima in 1991, is a new type of nanoscale materials [3].
Experimental Materials Raw materials: silk fiber (Southwest University, Chongqing, China), carbon nanotube (Shenzhen nano harbour Corporation Ltd).
[2] Han Zhang, Jun Magoshi, Mary Beckers, et al: Journal of Applied Polymer Science.
[8] Yudong Xin, Xiaodong Liu: Journal of donghua university of science and technology.
Online since: July 2012
Authors: Yin Zhu Ye, Zheng Bo Wang, Xiao Hu Bai, Jin Xing Wang
As a result of recent improvement in technologies to see and manipulate these materials, the nano-materials field has got a huge increase in funding.
Nano-material, whose size range 1-100 nm, is a field that takes materials science-based approach to nanotechnology [1].
Nano-materials can be metals, ceramics, polymeric materials, or composite materials.
An important aspect of nano-materials is the vastly increased ratio of surface area to volume present in many nanoscale materials, which makes possible new quantum mechanical effects.
Journal of Petroleum Technology (JPT), 2006, 58 (11):24 ~ 26
Nano-material, whose size range 1-100 nm, is a field that takes materials science-based approach to nanotechnology [1].
Nano-materials can be metals, ceramics, polymeric materials, or composite materials.
An important aspect of nano-materials is the vastly increased ratio of surface area to volume present in many nanoscale materials, which makes possible new quantum mechanical effects.
Journal of Petroleum Technology (JPT), 2006, 58 (11):24 ~ 26
Online since: December 2013
Authors: You Wei Zeng, Gang Peng, Qian Feng Wang, Jin Sheng Lei
The test used Φ100 mm × 500 mm cylindrical specimens which are composed by the following materials: 42.5R ordinary Portland cement was used for cement and continuous river gravel with maximum diameter 20mm was applied for coarse aggregate gradation.
Acknowledgements This work was financially supported by the National Natural Science Foundation of China (51279092), Project of Natural Science Foundation of Hubei Province, China (2013CFB218), and Science and Technology Research and Development Project of Yichang, China (A2011-302-5).
References [1] Jiang zhifeng: Steel fiber reinforced concrete(Central Research Institute of Building and Construction, Ministry of Metallurgical Industry, China 1984)(in Chinese) [2] Gao Danying, Zhao Jun, Zhu Haitang: Design and application of steel fiber reinforced concrete(China Building Industry Press, China 2002)(in Chinese) [3] Thomas J, Ramaswamy A: Journal of materials in civil engineering.
Vol. 61(1964), p. 657 [8] Naaman A E, Najm H: ACI Materials Journal.
Vol. 21(1990), p. 132 [10] Soroushian P, Bayasi Z: ACI Materials Journal.
Acknowledgements This work was financially supported by the National Natural Science Foundation of China (51279092), Project of Natural Science Foundation of Hubei Province, China (2013CFB218), and Science and Technology Research and Development Project of Yichang, China (A2011-302-5).
References [1] Jiang zhifeng: Steel fiber reinforced concrete(Central Research Institute of Building and Construction, Ministry of Metallurgical Industry, China 1984)(in Chinese) [2] Gao Danying, Zhao Jun, Zhu Haitang: Design and application of steel fiber reinforced concrete(China Building Industry Press, China 2002)(in Chinese) [3] Thomas J, Ramaswamy A: Journal of materials in civil engineering.
Vol. 61(1964), p. 657 [8] Naaman A E, Najm H: ACI Materials Journal.
Vol. 21(1990), p. 132 [10] Soroushian P, Bayasi Z: ACI Materials Journal.
Online since: December 2012
Authors: Nor Diyana Md Sin, Samsiah Ahmad, M.N. Berhan, Mohamad Rusop
Foucaran: Materials Science and Engineering: B, vol. 97 (2003) p. 68-73
[3] S.Singh, R.
[11] Hyoun Woo Kim and Nam Ho Kim : Materials Science and Engineering: B, vol. 103, pp. 297-302, 2003
[14] J.I.Son, J.H.Shim, and N.H.Cho, "Variations in electrical and physical properties of Al: ZnO films with preparation conditions," Metals and Materials International, vol. 17, pp. 99-104, 2011
Liu, and J.S.Yang:Materials Chemistry and Physics, vol. 72, pp. 269-272, 2001
Bandyopadhyay, and S Bose:Materials Science and Engineering: B, vol. 164 (2009) p. 38-43.
[11] Hyoun Woo Kim and Nam Ho Kim : Materials Science and Engineering: B, vol. 103, pp. 297-302, 2003
[14] J.I.Son, J.H.Shim, and N.H.Cho, "Variations in electrical and physical properties of Al: ZnO films with preparation conditions," Metals and Materials International, vol. 17, pp. 99-104, 2011
Liu, and J.S.Yang:Materials Chemistry and Physics, vol. 72, pp. 269-272, 2001
Bandyopadhyay, and S Bose:Materials Science and Engineering: B, vol. 164 (2009) p. 38-43.
Online since: October 2025
Authors: Vadym Korol, Dmytro Harkavenko, Serhii Fedoriachenko, Bohdan Tsymbal
Journal of Materials Research and Technology, 130-139
Journal of Materials Processing Technology, 214(5), 1062-1093
Progress in Materials Science, 124, 100851
Construction, materials science, mechanical engineering, (96), 95-102
Archives of Materials Science and Engineering, 94/2, 49-54.
Journal of Materials Processing Technology, 214(5), 1062-1093
Progress in Materials Science, 124, 100851
Construction, materials science, mechanical engineering, (96), 95-102
Archives of Materials Science and Engineering, 94/2, 49-54.
Online since: April 2012
Authors: Lei Zhang, Yun Wei Zhao, Zhuo Yang
Material removal mechanism of ER fluid-assisted polishing
The material removal mechanism of the ER fluid-assisted polishing is schematically shown in Fig.1.
Kuriyagawa: International Journal of Machine Tools and Manufacture Vol. 48 (2008), p. 295-306
Wang: Experimentation on MR fluid using a 2-axis wheel tool, Journal of Materials Processing Technology Vol.209 (2009), p. 5254-5261
Khonsari, Thermohydrodynamic Design Charts for Slider Bearings, Journal of Tribology Vol.119(1997), p. 859-869
Lee: Journal of Materials Processing Technology Vol. 155-156 (2004), p. 1293-1299
Kuriyagawa: International Journal of Machine Tools and Manufacture Vol. 48 (2008), p. 295-306
Wang: Experimentation on MR fluid using a 2-axis wheel tool, Journal of Materials Processing Technology Vol.209 (2009), p. 5254-5261
Khonsari, Thermohydrodynamic Design Charts for Slider Bearings, Journal of Tribology Vol.119(1997), p. 859-869
Lee: Journal of Materials Processing Technology Vol. 155-156 (2004), p. 1293-1299
Online since: June 2013
Authors: Hui Lin Wang, Qiao Ying Li, Ping Kuan Zhang
Journal of Tool Engineering,Vol.44 No.7 (2010) 40-42
[2] Kim J, Dornfeld DA.
Development of an analytical model for drilling burr formation in ductile materials.
Transactions of the ASME, Journal of Engineering Materials and Technology 124(2002) 192-198 [3] Chamanfar A, Mahumudi R.
Material Science and Engineering A397(2005) 153-156
Journal of Mechanical Engineering, 1(1999) 42-43
Development of an analytical model for drilling burr formation in ductile materials.
Transactions of the ASME, Journal of Engineering Materials and Technology 124(2002) 192-198 [3] Chamanfar A, Mahumudi R.
Material Science and Engineering A397(2005) 153-156
Journal of Mechanical Engineering, 1(1999) 42-43
Online since: March 2020
Authors: Achmad Chafidz, Ridwan A. Destian, Fitratur Rahman, Suharno Rusdi
Experimental
Materials and apparatus.
The materials used in this study were: kapok banana peels, wheat flour, sulfuric acid, acetic acid, glycerin, aquadest, and fine salt.
So it can be said that bioplastics from banana peels are worthy of being used as raw materials.
Songklanakarin Journal Science of Technology 30, no.
Indonesian Journal of Chemical Science, 2014: 163-167 [8] Qiao, X., Z.
The materials used in this study were: kapok banana peels, wheat flour, sulfuric acid, acetic acid, glycerin, aquadest, and fine salt.
So it can be said that bioplastics from banana peels are worthy of being used as raw materials.
Songklanakarin Journal Science of Technology 30, no.
Indonesian Journal of Chemical Science, 2014: 163-167 [8] Qiao, X., Z.
Online since: December 2015
Authors: S. Nallusamy
The need for light weight and durable materials are fulfilled by various metals and its alloys.
One of the important materials that are widely used in this category is aluminium and its alloys.
In some materials the property changes because of the heat input generated during welding.
Also it has comparatively higher mechanical property values than the materials welded without SiC particles addition were discussed elsewhere [21].
A, pp. 253-258 [18] Mrowka-Nowotnik G. 2010, “Influence of chemical composition variation and heat treatment on microstructure and mechanical properties of 6000 alloys”, Journal of Archives of Materials Science and Engineering, Vol. 46(2), pp. 98-107 [19] Elangovan K and Balasubramanian V. 2008, “Influences of tool pin profile and welding speed on the formation of friction stir processing zone in AA2219 aluminium alloy”, Journal of materials processing technology, Volume 200, Issues 1-3, pp. 163-175 [20] Karthikeyan P and Mahadevan K. 2012, “Study on the weld quality of the friction stir welded Al-6063 plates using square and pentagonal profiled tools”, Journal of applied sciences Vol. 12(10), pp. 1026-1031 [21] Karthikeyan P, Mahadevan K. 2014, “Evaluation of mechanical properties of friction stir welded Al 6351alloy with reinforcement particles in the weld region”, Advanced Materials Research, Vol. 893, pp 361-364
One of the important materials that are widely used in this category is aluminium and its alloys.
In some materials the property changes because of the heat input generated during welding.
Also it has comparatively higher mechanical property values than the materials welded without SiC particles addition were discussed elsewhere [21].
A, pp. 253-258 [18] Mrowka-Nowotnik G. 2010, “Influence of chemical composition variation and heat treatment on microstructure and mechanical properties of 6000 alloys”, Journal of Archives of Materials Science and Engineering, Vol. 46(2), pp. 98-107 [19] Elangovan K and Balasubramanian V. 2008, “Influences of tool pin profile and welding speed on the formation of friction stir processing zone in AA2219 aluminium alloy”, Journal of materials processing technology, Volume 200, Issues 1-3, pp. 163-175 [20] Karthikeyan P and Mahadevan K. 2012, “Study on the weld quality of the friction stir welded Al-6063 plates using square and pentagonal profiled tools”, Journal of applied sciences Vol. 12(10), pp. 1026-1031 [21] Karthikeyan P, Mahadevan K. 2014, “Evaluation of mechanical properties of friction stir welded Al 6351alloy with reinforcement particles in the weld region”, Advanced Materials Research, Vol. 893, pp 361-364