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Online since: July 2011
Authors: Dang Gang Li, Xian Jin Yu, Li Peng Zhang, Zhi Wei Ge, Yun Hui Dong
The ceramics materials were characterized by X-ray diffraction (XRD) and scanning electron microscopy (SEM).
As the new materials synthetic technology developing, the research on thermoelectric materials develope quickly, the reports of new materials are very much, except traditional thermoelectric materials.
The additive affect microstructure of materials [7].
Beijing, Science Technology Press, (1998)
[6] XI Jinhui, LIU Yihan, YAO Guangchun: Functional Materials, Vol. 36 (2005), p. 374 [7] ZHANG Lipeng, YU Xianjin, DONG Yunhui: Journal of Rare Earths (in Chinese),Vol. 25 (2007), p. 190 [8] WANG Dongli, CHEN Lidong, BO Shengqiang: Journal of Inorganic Materials(in Chinese), Vol. 19 (2004), p. 1329 [9] LIN Yuanhua, ZHOU Xisong, NAN Jun: J Chin Ceram Soc (in Chinese), Vol. 32 (2004), p. 537 [10] ZHANG Lipeng, YU Xianjin, DONG Yunhui: Journal of Rare Earths, Vol. 24 (2006), p. 365 [11] MASUDA Y, NAGAHAMA D, ITAHARA H: J Mater Chem, Vol. 13 (2003), p. 1094 [12] ZHOU Y Q, MATSUBARA I, HORII S: J Applied Physics, Vol. 93 (2003), p. 2653 [13] ELHITI M A, ABOELATA A M: Journal of Magnetism and Magnetic Materials, Vol. 195 (1999), p. 667 [14] PARK K: Scripta Materiallia, Vol. 50 (2004), p. 551 [15] PARK K:Materials Science and Engineering, Vol.
As the new materials synthetic technology developing, the research on thermoelectric materials develope quickly, the reports of new materials are very much, except traditional thermoelectric materials.
The additive affect microstructure of materials [7].
Beijing, Science Technology Press, (1998)
[6] XI Jinhui, LIU Yihan, YAO Guangchun: Functional Materials, Vol. 36 (2005), p. 374 [7] ZHANG Lipeng, YU Xianjin, DONG Yunhui: Journal of Rare Earths (in Chinese),Vol. 25 (2007), p. 190 [8] WANG Dongli, CHEN Lidong, BO Shengqiang: Journal of Inorganic Materials(in Chinese), Vol. 19 (2004), p. 1329 [9] LIN Yuanhua, ZHOU Xisong, NAN Jun: J Chin Ceram Soc (in Chinese), Vol. 32 (2004), p. 537 [10] ZHANG Lipeng, YU Xianjin, DONG Yunhui: Journal of Rare Earths, Vol. 24 (2006), p. 365 [11] MASUDA Y, NAGAHAMA D, ITAHARA H: J Mater Chem, Vol. 13 (2003), p. 1094 [12] ZHOU Y Q, MATSUBARA I, HORII S: J Applied Physics, Vol. 93 (2003), p. 2653 [13] ELHITI M A, ABOELATA A M: Journal of Magnetism and Magnetic Materials, Vol. 195 (1999), p. 667 [14] PARK K: Scripta Materiallia, Vol. 50 (2004), p. 551 [15] PARK K:Materials Science and Engineering, Vol.
Online since: February 2016
Authors: Ji Zhao, Shi Jun Ji, Xin Wang, Fu Sheng Liang
Grinding usually be employed in semi-finishing for removing redundant materials efficiently.
The high hardness and brittleness of the materials restrict largely the parameters of processing, which lead to the low efficiency of machining.
Optik-International Journal for Light and Eledtron Optics Vol.122 (2011) p.358-363 [5] Ling Yin, Han Huang: Brittle materials in Nano-abrasive Fabrication of Optical Mirror-surfaces.
SPIE 1995 International Symposium on Silicon Carbide Materials for Optics and Precision Structure.
Journal of The Optical Society of America A-optics Image Science and Vision Vol.24 (2007) p.1551-1561 [11] Raquel Concheiro, Margarita Amor, Emilio J.
The high hardness and brittleness of the materials restrict largely the parameters of processing, which lead to the low efficiency of machining.
Optik-International Journal for Light and Eledtron Optics Vol.122 (2011) p.358-363 [5] Ling Yin, Han Huang: Brittle materials in Nano-abrasive Fabrication of Optical Mirror-surfaces.
SPIE 1995 International Symposium on Silicon Carbide Materials for Optics and Precision Structure.
Journal of The Optical Society of America A-optics Image Science and Vision Vol.24 (2007) p.1551-1561 [11] Raquel Concheiro, Margarita Amor, Emilio J.
Online since: February 2016
Authors: Edyta Rożniata, Jerzy Pacyna, Marcin Madej, Janusz Krawczyk, Robert Dąbrowski, Łukasz Frocisz
Kokosza, Specifying reasons for easily appearing fractures in rolls made of L200HNM cast steel, Works of the Faculty of Metallurgy and Materials Science, AGH University of Science and Technology, Krakow, 1999
Pacyna, The influence of hypereutectoid cementite morphology upon fracture toughness of chromium-nickel-molybdenum cast steel of ledeburite class, Journal of Materials Processing Technology 162-163 (2005) 336-341
Pacyna, Hypereutectoid cementite morphology and mechanical properties of Cr-Ni-Mo cast steel, Journal of Achievements in Materials and Manufacturing Engineering 17/1-2 (2006) 145-148
Key Engineering Materials, 641, (2015) 136-140
Journal of Achievements in Materials and Manufacturing Engineering, 47(2) (2011) 137–148
Pacyna, The influence of hypereutectoid cementite morphology upon fracture toughness of chromium-nickel-molybdenum cast steel of ledeburite class, Journal of Materials Processing Technology 162-163 (2005) 336-341
Pacyna, Hypereutectoid cementite morphology and mechanical properties of Cr-Ni-Mo cast steel, Journal of Achievements in Materials and Manufacturing Engineering 17/1-2 (2006) 145-148
Key Engineering Materials, 641, (2015) 136-140
Journal of Achievements in Materials and Manufacturing Engineering, 47(2) (2011) 137–148
Online since: March 2010
Authors: Li Zhang, Guo Da Chen, Shi Ming Ji, Ming Sheng Jin
Kawashima: Journal of Materials Processing Technology, Vols.
143-144 (2003), p. 682-686
[3] A.M.
Khatri: Journal of Materials Processing Technology, Vol. 190 (2007), p. 282-290 [4] M.
Komanduri: Journal of Manufacturing Science and Engineering , Vol. 119 (1997), p. 520-528 [5] S.H.
Yuan: Key Engineering Materials, Vols. 304-305 (2006), p. 113-117 [8] S.M.
Chen: Key Engineering Materials, Vol. 416 (2009), p. 583-587 [9] H.B.
Khatri: Journal of Materials Processing Technology, Vol. 190 (2007), p. 282-290 [4] M.
Komanduri: Journal of Manufacturing Science and Engineering , Vol. 119 (1997), p. 520-528 [5] S.H.
Yuan: Key Engineering Materials, Vols. 304-305 (2006), p. 113-117 [8] S.M.
Chen: Key Engineering Materials, Vol. 416 (2009), p. 583-587 [9] H.B.
Online since: July 2014
Authors: Zbyšek Pavlík, Robert Černý, Jan Kočí
Introduction
Moisture diffusivity is a crucial parameter for description of moisture transport in building materials.
Determination of the Liquid Water Diffusivity from Transient Moisture Transfer Experiments, Journal of Thermal Envelope & Building Science, vol. 27(4), 2004, pp. 277-305
Černý, Application of Genetic Algorithm for Determination of Water Vapor Diffusion Parameters of Building Materials, Journal of Building Physics, vol. 35 (3), 20102, pp. 238-250 [11] Z.
Černý, A Boltzmann Transformation Method for Investigation of Water Vapor Transport in Building Materials.
Journal of Building Physics, vol. 35, 2012, pp. 213-223
Determination of the Liquid Water Diffusivity from Transient Moisture Transfer Experiments, Journal of Thermal Envelope & Building Science, vol. 27(4), 2004, pp. 277-305
Černý, Application of Genetic Algorithm for Determination of Water Vapor Diffusion Parameters of Building Materials, Journal of Building Physics, vol. 35 (3), 20102, pp. 238-250 [11] Z.
Černý, A Boltzmann Transformation Method for Investigation of Water Vapor Transport in Building Materials.
Journal of Building Physics, vol. 35, 2012, pp. 213-223
Online since: February 2019
Authors: P. Khavanov, Alexandr Fomin, M.I. Kozhukhova
This material is effectively used for different types of binders and construction materials [2–6], including autoclave materials [7–11].
World Applied Sciences Journal. 29 (12) (2014) 1600–1604
World Appliance Sciences Journal. 24 (11) (2013) 1519–1524
World Applied Sciences Journal. 25 (12) (2013) 1758–1762
Construction and Building Materials. 158 (2018) 132–140
World Applied Sciences Journal. 29 (12) (2014) 1600–1604
World Appliance Sciences Journal. 24 (11) (2013) 1519–1524
World Applied Sciences Journal. 25 (12) (2013) 1758–1762
Construction and Building Materials. 158 (2018) 132–140
Online since: December 2010
Authors: Guang Chuan Liang, Xiao Ke Zhi, Li Wang, Xiao Fei Jie, Li Min Gao
Goodenough: Phospho-olivines as positive electrode materials for rechargeable lithium batteries, Vol. 144(4)(1997), p. 1188
[3] P.
Sub, et al.: Journal of Power Sources, 2008, p. 466 [11] J.
Ji: Journal of Sichuan University, Vol. 7(2005), p.77 [14] G.
Yan, et al.: Chemical Journal of Chinese Universities, Vol. 28(1) (2007), p.136 [15] P.
Luo, et al.: Journal of Alloys and Compounds, Vol. 467 (2009), p. 390 [16] X.
Sub, et al.: Journal of Power Sources, 2008, p. 466 [11] J.
Ji: Journal of Sichuan University, Vol. 7(2005), p.77 [14] G.
Yan, et al.: Chemical Journal of Chinese Universities, Vol. 28(1) (2007), p.136 [15] P.
Luo, et al.: Journal of Alloys and Compounds, Vol. 467 (2009), p. 390 [16] X.
Online since: January 2013
Authors: Ying Xiang Jiang, Gui Zhen Li, Zhi Lin Li
According to materials physical and chemical properties, the paper expounded materials choice of rotating seal joint parts.
The materials of rotating sealing face are usually chosen by physical properties and chemical erosion resistance of materials.
Guangxi Journal of Light Industry.11(2009), P.91-92
Pressure piping code―Industrial piping part 2: materials[S]
Journal of Iron and Steel Research.
The materials of rotating sealing face are usually chosen by physical properties and chemical erosion resistance of materials.
Guangxi Journal of Light Industry.11(2009), P.91-92
Pressure piping code―Industrial piping part 2: materials[S]
Journal of Iron and Steel Research.
Online since: March 2015
Authors: Jian Guo Yang, Yin Chen Ma
International Journal of Machine Tool& Manufacture. 2010.9
Journal of Materials Processing Technology. 159(2005)48-61
Lezanski, An intelligent system for grinding wheel condition monitoring, Journal of Materials Processing Technology 109 (2001)258–263
Journal of manufacturing science and engineering. 2008.6
Journal of Materials Processing Technology 175 (2006) 278–284 [10]I.
Journal of Materials Processing Technology. 159(2005)48-61
Lezanski, An intelligent system for grinding wheel condition monitoring, Journal of Materials Processing Technology 109 (2001)258–263
Journal of manufacturing science and engineering. 2008.6
Journal of Materials Processing Technology 175 (2006) 278–284 [10]I.
Online since: October 2010
Authors: Zhan Qiang Liu, Xing Ai, Yang Qiao
Results and Discussion
Selection of Tool Materials.
Mendez: Materials Science and Engineering A Vol. 399 (2005), p. 199-205 [2] W.
Bhadeshia: Materials Science and Engineering A Vol. 223 (1997), p. 64-77 [4] W.M.
Danninger: Journal of Materials Processing Technology Vol. 176 (2006), p. 62-69 [8] A.R.C.
Ridgway: Journal of Materials Processing Technology Vol. 200 (2008), p. 424-432
Mendez: Materials Science and Engineering A Vol. 399 (2005), p. 199-205 [2] W.
Bhadeshia: Materials Science and Engineering A Vol. 223 (1997), p. 64-77 [4] W.M.
Danninger: Journal of Materials Processing Technology Vol. 176 (2006), p. 62-69 [8] A.R.C.
Ridgway: Journal of Materials Processing Technology Vol. 200 (2008), p. 424-432