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Online since: March 2013
Authors: Ze Kun Feng, Zhong Yan Chen, Fu Chen, Yuan Zhou
Journal of Magnetism and Magnetic Materials. 265(2003):337-344
Journal of Magentic Materials and Devices.2010, 41(2):22-24,45
Journal of Magnetism and Magnetic Materials 247(2002):257-269
Journal of magnetism and magnetic materials ,2012,28 [7].
Journal of functional materials and devices. 2011, 17(1):69-73.
Journal of Magentic Materials and Devices.2010, 41(2):22-24,45
Journal of Magnetism and Magnetic Materials 247(2002):257-269
Journal of magnetism and magnetic materials ,2012,28 [7].
Journal of functional materials and devices. 2011, 17(1):69-73.
Online since: December 2024
Authors: S. K. Jeeva Roshini, Jobin Varghese, Lokesh Singh, R. Deepak Suresh Kumar, L. Hrithick Kumar
It highlights the potential for transformative breakthroughs in medicine, energy systems, and materials science, guided by ongoing research and innovation.
These collective studies highlight the pivotal role of nanotechnology in shaping the future of materials science and advancing applications across various industries.
From 2005 onwards, nanomanufacturing research has surged, particularly in engineering, material science, physics, and optics, tackling nanoscale challenges, precision at the nano level, intricate shapes, and novel materials.
Nanotechnology is poised to revolutionize materials science and manufacturing processes. [13,14] The development of nanocomposites and nanomaterial-based products could lead to materials with enhanced strength, durability, and functionality.
Zäch et al in Current Opinion in Solid State and Materials Science, Volume 10, Issues 3-4, June-August 2006
These collective studies highlight the pivotal role of nanotechnology in shaping the future of materials science and advancing applications across various industries.
From 2005 onwards, nanomanufacturing research has surged, particularly in engineering, material science, physics, and optics, tackling nanoscale challenges, precision at the nano level, intricate shapes, and novel materials.
Nanotechnology is poised to revolutionize materials science and manufacturing processes. [13,14] The development of nanocomposites and nanomaterial-based products could lead to materials with enhanced strength, durability, and functionality.
Zäch et al in Current Opinion in Solid State and Materials Science, Volume 10, Issues 3-4, June-August 2006
Online since: December 2013
Authors: Shu Zhan Lv, Shi Yong Zhao, Mei Mei Liu, Pei Pei Wu
In this paper, the production of calcium carbonate by calcium carbide residue was studied, and carbide slag and ammonium bicarbonate was the main materials.
The characteristics of materials and products in the experiment were tested by XRD, SEM and laser particle size instrument.
The results showed that the calcium carbide residue after appropriately treated can be used as the raw materials to prepare calcium carbonate in different particle size.
Journal of Southwest University of Science and Technology,2005,20(2):50~52
Journal of Shanghai University,2002,8(3):247~250
The characteristics of materials and products in the experiment were tested by XRD, SEM and laser particle size instrument.
The results showed that the calcium carbide residue after appropriately treated can be used as the raw materials to prepare calcium carbonate in different particle size.
Journal of Southwest University of Science and Technology,2005,20(2):50~52
Journal of Shanghai University,2002,8(3):247~250
Online since: October 2011
Authors: Farhad Kolahan, Reza Golmezerji, Masoud Azadi Moghaddam
Karayel, “Prediction and control of surface roughness in CNC lathe using artificial neural network”, The international Journal of Materials Processing Technology, vol 209, 2009, pp. 3125-3137
Kwon, “Optimization of EDM process for multiple performance characteristics using Taguchi method and Grey relational analysis†”, The International Journal of Journal of Mechanical Science and Technology, vol 24, 2010 , pp.1083-1090
Chincholkar, “Effect of machining parameters on surface roughness and material removal rate in polymer pipes”, The International Journal of Materials and Design vol .31, 2010, pp. 3590–3598
Santhi, “Development of multi-objective optimization models for electrochemical machining process”, The International Journal of Materials Manufacturing Technology , vol. 39, 2008, pp. 55–63
Hocheng, “Optimization of electrochemical polishing of stainless steel by Grey relational analysis”,The International journal of materials processing technology ,vol 140, 2003, pp. 255–259
Kwon, “Optimization of EDM process for multiple performance characteristics using Taguchi method and Grey relational analysis†”, The International Journal of Journal of Mechanical Science and Technology, vol 24, 2010 , pp.1083-1090
Chincholkar, “Effect of machining parameters on surface roughness and material removal rate in polymer pipes”, The International Journal of Materials and Design vol .31, 2010, pp. 3590–3598
Santhi, “Development of multi-objective optimization models for electrochemical machining process”, The International Journal of Materials Manufacturing Technology , vol. 39, 2008, pp. 55–63
Hocheng, “Optimization of electrochemical polishing of stainless steel by Grey relational analysis”,The International journal of materials processing technology ,vol 140, 2003, pp. 255–259
Online since: October 2018
Authors: Alexey V. Stolbovsky, Elena P. Farafontova
Miheev Institute of Metal Physics, Ural Branch of the Russian Academy of Sciences, 18 S.
These materials have unique physical, mechanical and chemical properties which open a range of new applications of these materials in high technologies [1–3].
It should be noted that the grain structure is the most important factor responsible for the special properties of such materials, which differ them from ordinary polycrystalline materials.
Gleiter, Nanostructured materials: Basic concepts and microstructure, Acta Mater. 48 (2000) 1-29
Pilyugin, Thermal stability of nanocrystalline structure in niobium processed by high pressure torsion at cryogenic temperatures, Materials Science and Engineering A. 528 (2011) 1491-1496
These materials have unique physical, mechanical and chemical properties which open a range of new applications of these materials in high technologies [1–3].
It should be noted that the grain structure is the most important factor responsible for the special properties of such materials, which differ them from ordinary polycrystalline materials.
Gleiter, Nanostructured materials: Basic concepts and microstructure, Acta Mater. 48 (2000) 1-29
Pilyugin, Thermal stability of nanocrystalline structure in niobium processed by high pressure torsion at cryogenic temperatures, Materials Science and Engineering A. 528 (2011) 1491-1496
Online since: January 2014
Authors: Marcos Flavio de Campos
Missell: Journal of Magnetism and Magnetic Materials Vol. 320, (2008), p. e73
McCallum: Journal of Magnetism and Magnetic Materials Vol. 292 (2005), p. 135
McCallum: Journal of Magnetism and Magnetic Materials Vol. 299 (2006), p. 472
[22] M.F. de Campos: Materials Science Forum Vols. 530-531 (2006) p. 146
[23] M.F. de Campos: Materials Science Forum Vols. 660-661 (2010), p. 284
McCallum: Journal of Magnetism and Magnetic Materials Vol. 292 (2005), p. 135
McCallum: Journal of Magnetism and Magnetic Materials Vol. 299 (2006), p. 472
[22] M.F. de Campos: Materials Science Forum Vols. 530-531 (2006) p. 146
[23] M.F. de Campos: Materials Science Forum Vols. 660-661 (2010), p. 284
Online since: August 2019
Authors: Kamrun N. Keya, Nasrin A. Kona, Ruhul Amin Khan
International Journal of Textile Science, 1(6), 84-93
Damodaran (1987), Impact properties of natural fibre composites, Journal of Materials Science Letters, 6(8), 882–884
[35] Dipa, R., Sarkar, B.K., Rana, A.K., and Bose, N.R. (2001), Effect of alkali treated jute fibres on composite properties, Bulletin of Materials Science, 24(2), 129-135
Materials & Design, 27 (5), 391-396
Materials Today: Proceedings, 4(2), 2893–2902
Damodaran (1987), Impact properties of natural fibre composites, Journal of Materials Science Letters, 6(8), 882–884
[35] Dipa, R., Sarkar, B.K., Rana, A.K., and Bose, N.R. (2001), Effect of alkali treated jute fibres on composite properties, Bulletin of Materials Science, 24(2), 129-135
Materials & Design, 27 (5), 391-396
Materials Today: Proceedings, 4(2), 2893–2902
Online since: November 2012
Authors: Huan Lao Liu, Bao Yue Chen, Feng Liu, Guang Yu Tan
In the machining process, there are many factors (the status, pose and cutting parameters of the tool, workpiece materials etc.) to affect the magnitude and direction of the cutting force.
Journal of Manufacturing Science and Engineering, 1997, 119:717-725
Linear positional errors.Journal of Materials Processing Technology, 2000, 105:394-406
Measurement Science & Technology, 2005, 16:2466-2472
KSME International Journal, 2000, VoL 14, No. 6: 622-632
Journal of Manufacturing Science and Engineering, 1997, 119:717-725
Linear positional errors.Journal of Materials Processing Technology, 2000, 105:394-406
Measurement Science & Technology, 2005, 16:2466-2472
KSME International Journal, 2000, VoL 14, No. 6: 622-632
Online since: November 2011
Authors: Xi Ping Wang, Sheng Xiong Dong, Feng Chen
Materials and methods
Materials and apparatus.
Journal of Agricultural and Food Chemistry Vol. 48 (2000), p.1455-1461 [2] Heli Cheng, Fengshan Wang.
Anhui Medical and Pharmaceutical Journal Vol. 11(8) (2007) p. 686-687 (in Chinese) [3] Fengxia Xie, Zumin Qiu, Shenghui Tu, Xinliang Xie.
Journal of Nanchang University (Natural Science) Vol. 29(3) (2005) p. 278-280 (in Chinese) [4] Zhongsong Gao, MIjun Peng, Shenzheng Li.
Food Science and Technology, Vol. 12 (2007) p. 162-164 (in Chinese) [10] Zhao, S.
Journal of Agricultural and Food Chemistry Vol. 48 (2000), p.1455-1461 [2] Heli Cheng, Fengshan Wang.
Anhui Medical and Pharmaceutical Journal Vol. 11(8) (2007) p. 686-687 (in Chinese) [3] Fengxia Xie, Zumin Qiu, Shenghui Tu, Xinliang Xie.
Journal of Nanchang University (Natural Science) Vol. 29(3) (2005) p. 278-280 (in Chinese) [4] Zhongsong Gao, MIjun Peng, Shenzheng Li.
Food Science and Technology, Vol. 12 (2007) p. 162-164 (in Chinese) [10] Zhao, S.
Online since: February 2011
Authors: De Yuan Zhang, Yue Hao Luo, Hua Wei Chen
Magnetron sputtering metallic or non-metallic materials on epoxy resin coating surface can effectively reduce the friction, improve the wear resistance and inhibit the abrasion, loss and so on.
Experiments Materials.
Table 1 Experimental parameters of sputtering different materials Sputtering material Sputtering way Electric Current [A] Voltage [V] Power [W] Time [min] Ti DC 0.1 320 32 300 C DC 0.1 420 42 300 Ti+C DC 0.1/0.1 320/420 74 300 Wear experiment.
References [1] Ping Yu, Xueyong Ren, et al: Journal of Guizhou University (Natural Sciences), vol.24 (2007), p.68-70, in Chinese [2] Qiaohua Feng, Yunbo Shi, et al: Science Information, No.2 (2007), p. 15, in Chinese [3] Xiaojing Xu, Liucheng Zhuo, et al: Tribology, Vol. 29 (2009), p. 256-259, in Chinese [4]Shihong Zhang, Yinsheng He, Mingxi Li, Yizhu He, Sikchol Kwon, et al: Thin Solid Films, Vol. 518 (2010), p. 5227-5232 [5] Weifeng Yang, Zhengyun Wu, et al: Applied Surface Science, vol. 256 (2010), p.7591-7595 [6] Jyh-Wei Lee, et al: Surface & Coatings Technology, Vol.200 (2006), p, 3330-3335 [7] Isaiah D.
Kellogg, et al: Journal of Power Sources, Vol. 195(2010), p. 7238-7242 [8] K.S.
Experiments Materials.
Table 1 Experimental parameters of sputtering different materials Sputtering material Sputtering way Electric Current [A] Voltage [V] Power [W] Time [min] Ti DC 0.1 320 32 300 C DC 0.1 420 42 300 Ti+C DC 0.1/0.1 320/420 74 300 Wear experiment.
References [1] Ping Yu, Xueyong Ren, et al: Journal of Guizhou University (Natural Sciences), vol.24 (2007), p.68-70, in Chinese [2] Qiaohua Feng, Yunbo Shi, et al: Science Information, No.2 (2007), p. 15, in Chinese [3] Xiaojing Xu, Liucheng Zhuo, et al: Tribology, Vol. 29 (2009), p. 256-259, in Chinese [4]Shihong Zhang, Yinsheng He, Mingxi Li, Yizhu He, Sikchol Kwon, et al: Thin Solid Films, Vol. 518 (2010), p. 5227-5232 [5] Weifeng Yang, Zhengyun Wu, et al: Applied Surface Science, vol. 256 (2010), p.7591-7595 [6] Jyh-Wei Lee, et al: Surface & Coatings Technology, Vol.200 (2006), p, 3330-3335 [7] Isaiah D.
Kellogg, et al: Journal of Power Sources, Vol. 195(2010), p. 7238-7242 [8] K.S.