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Online since: July 2022
Authors: Dora Kroisová, Štěpánka Dvořáčková, Petr Kůsa, Rawaa Yahya
Materials and Analysis
Materials and their preparation for analysis.
Raw rice husks were used as comparison materials; both originated in Thailand.
The importance of the obtained materials lies in the biogenic nature of silica nanoparticles, which are very well absorbed by the human body, for which the presence of silicon as a trace element is essential [10, 11].
Liou, Preparation and characterization of nano-structured silica from rice-husk, Materials Science and Engineering A 364 (2004) 313-323
Jugdaohsingh, Silicon and bone health, The Journal of Nutrition, Health and Aging, 11 (2007) 99-110
Raw rice husks were used as comparison materials; both originated in Thailand.
The importance of the obtained materials lies in the biogenic nature of silica nanoparticles, which are very well absorbed by the human body, for which the presence of silicon as a trace element is essential [10, 11].
Liou, Preparation and characterization of nano-structured silica from rice-husk, Materials Science and Engineering A 364 (2004) 313-323
Jugdaohsingh, Silicon and bone health, The Journal of Nutrition, Health and Aging, 11 (2007) 99-110
Online since: March 2011
Authors: Min Li Zheng, Ai Qin Lin, Yan Gu
[2] C.YENY, T.ALTAN: Journal of Materials Processing Technology,Vol.146(2004)No.1,pp.82-91
[3] Z.C.LIN,Y.Y.LIN: Journal of Materials Processing Technology,Vol.86(1999)No.2,pp.119-125
[4] A .MOUFKI, D.DUDZINSKI and A MOLINARI: International Journal of Mechanical Sciences,Vol.42(2000)No. 6,pp.1205-1211
[7] D.G.FlLOM, R.KOMANDURI and M LEE: Annals Review of Material Science,Vol.14 (1984) No.3,pp.231-278
[8] Z.C.LIN, Y.D.YANG: Journal of Materials Processing Technology,Vol.70(1997)No.1,pp.22-33.
[3] Z.C.LIN,Y.Y.LIN: Journal of Materials Processing Technology,Vol.86(1999)No.2,pp.119-125
[4] A .MOUFKI, D.DUDZINSKI and A MOLINARI: International Journal of Mechanical Sciences,Vol.42(2000)No. 6,pp.1205-1211
[7] D.G.FlLOM, R.KOMANDURI and M LEE: Annals Review of Material Science,Vol.14 (1984) No.3,pp.231-278
[8] Z.C.LIN, Y.D.YANG: Journal of Materials Processing Technology,Vol.70(1997)No.1,pp.22-33.
Online since: March 2016
Authors: Hui Jun Kang, Tong Min Wang, Wan Xia Huang, Ren Geng Li, Fen Fen Yang, Fei Cao
Introduction
Microstructures are at the center of materials science and engineering [1].
Liu, Effect of electric current pulses on solidification of immiscible alloys, Materials Letters. 132 (2014) 66-69
Hari Babu, Refinement of the grain size of the LM25 alloy (A356) by 96Al-2Nb-2B master alloy, Journal of Materials Processing Technology, 222 (2015) 219-223
Kapranos, Grain refinement of AA7075 alloy under combined magnetic fields, Materials Letters. 151 (2015) 38-40
Chen, Real time observation of equiaxed growth of Sn-Pb alloy under an applied direct current by synchrotron microradiography, Materials Letters. 89 (2012) 137-139
Liu, Effect of electric current pulses on solidification of immiscible alloys, Materials Letters. 132 (2014) 66-69
Hari Babu, Refinement of the grain size of the LM25 alloy (A356) by 96Al-2Nb-2B master alloy, Journal of Materials Processing Technology, 222 (2015) 219-223
Kapranos, Grain refinement of AA7075 alloy under combined magnetic fields, Materials Letters. 151 (2015) 38-40
Chen, Real time observation of equiaxed growth of Sn-Pb alloy under an applied direct current by synchrotron microradiography, Materials Letters. 89 (2012) 137-139
Online since: July 2011
Authors: Rong Lin Wang, Jing Long Bu, Zhi Fa Wang, Jian Zhang
Nygren: Journal of the American Ceramic Society, Vol. 75 (1992), p. 259
Zhang, et al: Materials and Design, Vol. 27 (2006), p. 595
Jiang, et al: Materials Science and Engineering A, Vol. 300 (2001), p.61
Kibble, et al: Materials and Design, Vol. 21 (2000), p. 453
Traver: Materials and Design, Vol. 31 (2010), p. 3641
Zhang, et al: Materials and Design, Vol. 27 (2006), p. 595
Jiang, et al: Materials Science and Engineering A, Vol. 300 (2001), p.61
Kibble, et al: Materials and Design, Vol. 21 (2000), p. 453
Traver: Materials and Design, Vol. 31 (2010), p. 3641
Online since: August 2013
Authors: Hui Jing Wang, Wei Zhi Wang, Qing Mei Jia
The Development Trend of the Electromechanical Integration
The purpose of electromechanical integration is to make the product be provided with multiple functions, high efficiency, high intelligence and high reliability, while saving materials and energy, and product developing in the light, thin, thin, small, clever direction, so as to continue satisfy the diversification requirements of the people's lives and labor-saving automation needs of production.
With the science and technology development and social progress, the application of electromechanical integration technology will be more widely; the progress of science and technology creates conditions for the emergence and development of electromechanical integration and the demand of society provides impetus.
In turn, the development of electromechanical integration continually promotes the progress of science and technology and the demand of society.
Beijing: Science Press, 2004
Journal of Vocational University, 2009, (4).
With the science and technology development and social progress, the application of electromechanical integration technology will be more widely; the progress of science and technology creates conditions for the emergence and development of electromechanical integration and the demand of society provides impetus.
In turn, the development of electromechanical integration continually promotes the progress of science and technology and the demand of society.
Beijing: Science Press, 2004
Journal of Vocational University, 2009, (4).
Online since: October 2004
Authors: M.W. Jessell
Grain growth simulations using the microstructure simulation system Elle have been
performed in materials with a pre-existing grain shape preferred orientation.
Grain boundary migration in geological materials may be controlled by chemical, lattice defect and boundary energy driving forces [2].
Hirth: International Journal of Earth Sciences,Vol. 90, (2001), p. 88-103
Evans: Journal of the Virtual Explorer 4.
Urai : Journal of Structural Geology, Vol. 14, (1992), p. 1101-1109
Grain boundary migration in geological materials may be controlled by chemical, lattice defect and boundary energy driving forces [2].
Hirth: International Journal of Earth Sciences,Vol. 90, (2001), p. 88-103
Evans: Journal of the Virtual Explorer 4.
Urai : Journal of Structural Geology, Vol. 14, (1992), p. 1101-1109
Online since: April 2012
Authors: Zi Li Jin, Wen Zhong Song, Qi Fang, Hui Ping Ren, Wei Sun
Acknowledgements
This work was supported by the innovation foundation of Inner Mongolia University of Science and Technology of China (2009NC009), Engagement Fundation of Inner Mongolia University of Science and Technology of China (PY—201002) and Natural Science Foundation of Inner Mongolia of China (2011BS0803).The authors would like to thank for innovation team of Material and Metallurgy School of Inner Mongolia University of Science and Technology.
Misra, High strength microalloyed C-Mn (V-Nb-Ti ) and C-Mn (V-Nb) pipeline steels processed through CSP Thin-Slab technology: microstructure, precipitation and mechanical properties, Materials Science and Engineering: A. 424(2006) 307-317
Shan, Challenge of mechanical properties of an acicular ferrite pipeline steel, Materials Science and Engineering: A. 431(2006) 41-52
Chen, Effect of rare earths on extra low sulfur microalloy steel, Journal of the Chinese Rare Earth Society. 15(1997) 228-233
Ren, Display technology of austenite grain boundary in rare earth microalloy steel, Journal of Physics Examination and Testing. 28(2010) 6-8
Misra, High strength microalloyed C-Mn (V-Nb-Ti ) and C-Mn (V-Nb) pipeline steels processed through CSP Thin-Slab technology: microstructure, precipitation and mechanical properties, Materials Science and Engineering: A. 424(2006) 307-317
Shan, Challenge of mechanical properties of an acicular ferrite pipeline steel, Materials Science and Engineering: A. 431(2006) 41-52
Chen, Effect of rare earths on extra low sulfur microalloy steel, Journal of the Chinese Rare Earth Society. 15(1997) 228-233
Ren, Display technology of austenite grain boundary in rare earth microalloy steel, Journal of Physics Examination and Testing. 28(2010) 6-8
Online since: January 2013
Authors: Gou Sheng Liu, Yue Long Liu
Experimental Methods
Materials: PP (homopolymer, melt-flow rate=2.3g/10min) was supplied as pellets by Sinopec Shanghai Petrochemical Co., Ltd., China.
This is due to the degradation of carbonaceous materials, as well as the sublimation of phosphorus oxide.
Journal of Applied Polymer Science. 102(2006), p. 5988
Journal of Applied Polymer Science. 94(2004), p. 2131
Journal of American Chemical Society, Vol. 91,(1969),p. 62
This is due to the degradation of carbonaceous materials, as well as the sublimation of phosphorus oxide.
Journal of Applied Polymer Science. 102(2006), p. 5988
Journal of Applied Polymer Science. 94(2004), p. 2131
Journal of American Chemical Society, Vol. 91,(1969),p. 62
Online since: May 2013
Authors: Yu Qiao Zheng, Hong Liu, Rong Zhen Zhao
Due to the high strength and low modulus of elasticity of glass fiber reinforced plastic/composite materials, people widely used FRP/composite blade at home and abroad.
Materials and innovations for large blade structures: research opportunities in wind energy technology. 50th AIAA Structures, Structural Dynamics, & Materials Conference, Palm Springs, May 2009
Journal of Multi-Body Dynamics. 2001, 218: 241–252
Journal of Composite Materials,2007, 2),174-183
Journal of Multi-Body Dynamics. 2001, 218: 241–252.
Materials and innovations for large blade structures: research opportunities in wind energy technology. 50th AIAA Structures, Structural Dynamics, & Materials Conference, Palm Springs, May 2009
Journal of Multi-Body Dynamics. 2001, 218: 241–252
Journal of Composite Materials,2007, 2),174-183
Journal of Multi-Body Dynamics. 2001, 218: 241–252.
Online since: May 2021
Authors: Hasfalina Che Man, Ra'ba'ah Syahidah Azis, Nurshahiera Rosdi, Ismayadi Ismail, Syazana Sulaiman
Majumder, Novel biofiltration methods for the treatment of heavy metals from industrial wastewater, Journal of hazardous materials 151(1) (2008) 1-8
Mamba, Ferrite nanoparticles: synthesis, characterisation and applications in electronic device, Materials Science and Engineering: B 215 (2017) 37-55
Shahrani, Preparation and characterization of Sr1− xNdxFe12O19 derived from steelwaste product via mechanical alloying, Materials Science Forum 846 (2015) 403-409
Ling, Synthesis and characterization of Mg–Ti substituted barium hexaferrite (BaMg 0.6 Ti 0.6 Fe 10.8 O 19 ) derived from millscale waste for microwave application, Journal of Materials Science: Materials in Electronics (2019) 8636-8644
Alveroglu, Synthesis and characterization of magnetite nanoparticles having different cover layer and investigation of cover layer effect on the adsorption of lysozyme and bovine serum albumin, Materials Science and Engineering: C 81 (2017) 393-399
Mamba, Ferrite nanoparticles: synthesis, characterisation and applications in electronic device, Materials Science and Engineering: B 215 (2017) 37-55
Shahrani, Preparation and characterization of Sr1− xNdxFe12O19 derived from steelwaste product via mechanical alloying, Materials Science Forum 846 (2015) 403-409
Ling, Synthesis and characterization of Mg–Ti substituted barium hexaferrite (BaMg 0.6 Ti 0.6 Fe 10.8 O 19 ) derived from millscale waste for microwave application, Journal of Materials Science: Materials in Electronics (2019) 8636-8644
Alveroglu, Synthesis and characterization of magnetite nanoparticles having different cover layer and investigation of cover layer effect on the adsorption of lysozyme and bovine serum albumin, Materials Science and Engineering: C 81 (2017) 393-399