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Online since: May 1994
As a matter of fact a
process is often terminated in practice at a stage where the material concerned is far
from equilibrium.
The development is discussed at length in issues of the journal Harterei-Technische Mitteilungen in 1993 and 1994.
Progress is limited by the lack of numerical data ("material constants") to put into the models for application to materials used in practice.
"Simply" measuring the character traits of practical materials, as exhibited by, for example, transfer and diffusion coefficients, is in order.
Therefore I do hope that these proceedings will be considered as useful by those active or interested in this classical field of materials science and engineering.
The development is discussed at length in issues of the journal Harterei-Technische Mitteilungen in 1993 and 1994.
Progress is limited by the lack of numerical data ("material constants") to put into the models for application to materials used in practice.
"Simply" measuring the character traits of practical materials, as exhibited by, for example, transfer and diffusion coefficients, is in order.
Therefore I do hope that these proceedings will be considered as useful by those active or interested in this classical field of materials science and engineering.
Online since: November 2012
Authors: Cheng Biao Wang, Li Li Yan, Wen Yue, Bo Xu
Tribological Properties and Worn Surface Analysis Generated by Sulfur- and Phosphorus-free Molybdenum-containing Water-based Lubricant
Li Li Yan1, a, Cheng Biao Wang2, b, Wen Yue3, c, Bo Xu4, d
1, 2, 3School of Engineering and Technology, China University of Geosciences, Beijing 100083, China
4School of Material Science and Engineering, Beijing Institute of Technology, Beijing 100081, China
ayanlily2005@163.com, bcbwang@cugb.edu.cn, ccugbyw@163.com, dzzuxubo2001@163.com
Keywords: Water-based lubricant, Molybdenum, Tribofilm, Surface analysis
Abstract.
Watanabe: International Journal of Materials and Product Technology, Vol. 30 (2007) No.4, p.309
Yoneshiba: Journal of the American Oil Chemists’ Society, Vol. 62 (1985) No.1, p.125
Liu: The Theories of Materials Wear and Their Wear Resistance (Tsinghua University Press, China 1993)
Spikes: Lubrication Science, Vol. 20 (2008) No.2, p.103
Watanabe: International Journal of Materials and Product Technology, Vol. 30 (2007) No.4, p.309
Yoneshiba: Journal of the American Oil Chemists’ Society, Vol. 62 (1985) No.1, p.125
Liu: The Theories of Materials Wear and Their Wear Resistance (Tsinghua University Press, China 1993)
Spikes: Lubrication Science, Vol. 20 (2008) No.2, p.103
Online since: October 2011
Authors: Jin Yang Lin, Tai Liang Guo, Yong Ai Zhang, Chao Xing Wu
The present results imply that patterned ZnO nanowires are promising materials for fabricating effiecient emitters in the application of display devices and vacuum electronics.
Yang, “Room-Temperature Ultraviolet Nanowire Nanolasers”, Science, Vol. 292, Jun. 2001, pp. 1897-1899, doi: 10.1126/science.1060367
Fu, " Electron field emission studies on ZnO nanowires ", Materials, Letters, Nov. 59, Aug. 2007, pp. 2465-2467, doi: 10.1016/j.matlet.2005.03.014
Chen, “Enhancement of field emission in nanotip-decorated ZnO nanobottles”, Journal of Crystal Growth, Vol. 311, Sep. 2009, pp. 4381-4384, doi: 10.1016/j.jcrysgro.2009.07.035 [10] F.J.
Liu, “Catalyst-Free Growth and Characterization of ZnO Nanorods”, Journal of Physic and Chemisty B, Vol. 106, Aug. 2002, pp. 9546-9551, doi: 10.1021/jp025969j
Yang, “Room-Temperature Ultraviolet Nanowire Nanolasers”, Science, Vol. 292, Jun. 2001, pp. 1897-1899, doi: 10.1126/science.1060367
Fu, " Electron field emission studies on ZnO nanowires ", Materials, Letters, Nov. 59, Aug. 2007, pp. 2465-2467, doi: 10.1016/j.matlet.2005.03.014
Chen, “Enhancement of field emission in nanotip-decorated ZnO nanobottles”, Journal of Crystal Growth, Vol. 311, Sep. 2009, pp. 4381-4384, doi: 10.1016/j.jcrysgro.2009.07.035 [10] F.J.
Liu, “Catalyst-Free Growth and Characterization of ZnO Nanorods”, Journal of Physic and Chemisty B, Vol. 106, Aug. 2002, pp. 9546-9551, doi: 10.1021/jp025969j
Online since: December 2019
Authors: Valentina Anatolyevna Poluektova
Introduction
The current trends in the innovative construction development with use of additive technologies have shown that the polymer cement composite is a promising material.
Materials and Methods Calculations of the molecular attraction and electrostatic repulsion energies, taking into account the structural forces in the model polymer-chalk dispersion, can be represented as calculations of the interaction energies of flat parallel plates, taking into account the fact that the interparticle distance in the system is much smaller than the radius of the particles themselves.
Regulation of their properties and application, Republic of Belarus, Science, Minsk, 2008
Poluektova, Electrokinetic properties and aggregative stability of polymer-mineral dispersions for construction 3D printing, Journal of Physical Chemistry. 93 (9) (2019) 1–7
Sobolev, Surface forces in nanodispersions, Colloid Journal. 67 (6) (2005) 839–843.
Materials and Methods Calculations of the molecular attraction and electrostatic repulsion energies, taking into account the structural forces in the model polymer-chalk dispersion, can be represented as calculations of the interaction energies of flat parallel plates, taking into account the fact that the interparticle distance in the system is much smaller than the radius of the particles themselves.
Regulation of their properties and application, Republic of Belarus, Science, Minsk, 2008
Poluektova, Electrokinetic properties and aggregative stability of polymer-mineral dispersions for construction 3D printing, Journal of Physical Chemistry. 93 (9) (2019) 1–7
Sobolev, Surface forces in nanodispersions, Colloid Journal. 67 (6) (2005) 839–843.
Online since: January 2018
Authors: Masahiro Fujita, Masatoshi Nishi, Hirofumi Iyama, Li Qun Ruan, Hiroko Sakaguchi
The material of cover plate was Al2024 and the Mie-Gruneisen equation of state [6] and Johnson-Cook constitutive law [7] are applied.
The use of explosion facility at the Institute of Pulsed Power Science, Kumamoto University is appreciated.
Osakada, Effect of heat treatment on forgeability of AZ31 magnesium alloy, Journal of Japan Institute of Light Metals, 57 (2007) 274–279
Chang, Dynamic Behavior of Materials, International Journal of Machine Tools and Manufacture, 43 (2003) 1553-1559
[7] M.A Meyers, Dynamic Behavior of Materials, Wiley Inter science, 1994
The use of explosion facility at the Institute of Pulsed Power Science, Kumamoto University is appreciated.
Osakada, Effect of heat treatment on forgeability of AZ31 magnesium alloy, Journal of Japan Institute of Light Metals, 57 (2007) 274–279
Chang, Dynamic Behavior of Materials, International Journal of Machine Tools and Manufacture, 43 (2003) 1553-1559
[7] M.A Meyers, Dynamic Behavior of Materials, Wiley Inter science, 1994
Online since: May 2011
Authors: Fu Shan Chen, Huan Fei Xu, Xiu Ying Jiang, Song Lin Wang
Effects of PEI as ATC on the Retention and Drainage of APMP
Fushan Chen1,a, Huanfei Xu1,b, Xiuying Jiang2,c, Songlin Wang1,d
1Qingdao University of Science & Technology, Qingdao, Shandong, China, 266042
2Lasting Dragon (China) Resources Distribution Co., Ltd.
Experimental Materials (1) Aspen APMP: from Xiajin Tralin Paper Co., beating degree: 36°SR. (2) CPAM(W/W) and bentonite: Ciba Specialty Chemicals. (3) CPAM-1(W/O) and CPAM-2(W/O) were prepared in laboratory. (4) Modified PEI: produced by Wuhan QiangLong New Chemical Materials Co.. (5) Ground calcium carbonate (GCC) filler: brightness 92.2%, supplied by Shandong Shouguang Cailun Shenxing Paper Chemical Co..
Paper Science & Technology, Vol. 24 (2005), p. 37-41 In Chinese [4] R W Xing, H Y Qiu and T Peng.
Journal of Pulp and Paper Science, Vol.28 (2002), p. 298-303 [11] Sh J Yuan, Y Li and Ch L Guo.
Journal of Chemical Industry of Forest Products, Vol.34 (2000), p. 29-31 In Chinese [14] Y J Tang, B Y Liu.
Experimental Materials (1) Aspen APMP: from Xiajin Tralin Paper Co., beating degree: 36°SR. (2) CPAM(W/W) and bentonite: Ciba Specialty Chemicals. (3) CPAM-1(W/O) and CPAM-2(W/O) were prepared in laboratory. (4) Modified PEI: produced by Wuhan QiangLong New Chemical Materials Co.. (5) Ground calcium carbonate (GCC) filler: brightness 92.2%, supplied by Shandong Shouguang Cailun Shenxing Paper Chemical Co..
Paper Science & Technology, Vol. 24 (2005), p. 37-41 In Chinese [4] R W Xing, H Y Qiu and T Peng.
Journal of Pulp and Paper Science, Vol.28 (2002), p. 298-303 [11] Sh J Yuan, Y Li and Ch L Guo.
Journal of Chemical Industry of Forest Products, Vol.34 (2000), p. 29-31 In Chinese [14] Y J Tang, B Y Liu.
Online since: November 2014
Authors: Xian Yuan Tang, Jie Xiao, Zhi Fan Mo, Hong Xin Lu
Changsha University of Science and Technology, Changsha, Hunan Province, 410076, China
2Guangxi Road & Bridge Construction Co.Ltd, Nanning, The Guangxi Zhuang Autonomous Region, 530011, China
3Guangxi Key Laboratory breeding base of Road structure and materials, Nanning, The Guangxi Zhuang Autonomous Region, 530007, China
axiaojie324@sina.com, bmozhifan@163.com, cluhongxin@126.com, dthy1188@126.com
Keywords: road performance, warm-mix modified asphalt, EC120, method of identical volume
Abstract.
Material Characteristics The asphalt is SBS I-D polymer modified asphalt.
Acknowledgements This work was financially supported by Guangxi science and technology development project (No. 1298011-4) and Guangxi Key Laboratory breeding base of Road structure and materials (No. 2011GXNSFB018003).
Ji: Journal of Highway and Transportation Research and Development, Vol. 8 (2013), p. 6.
Wang., et al: Journal of Hunan University (Natural Sciences), Vol. 8 (2010), p. 1.
Material Characteristics The asphalt is SBS I-D polymer modified asphalt.
Acknowledgements This work was financially supported by Guangxi science and technology development project (No. 1298011-4) and Guangxi Key Laboratory breeding base of Road structure and materials (No. 2011GXNSFB018003).
Ji: Journal of Highway and Transportation Research and Development, Vol. 8 (2013), p. 6.
Wang., et al: Journal of Hunan University (Natural Sciences), Vol. 8 (2010), p. 1.
Online since: November 2011
Authors: Ying Xiong, Yu Qin, Chun Li Kang, Jing Rui Wang, Han Fei Liu, Chong He, Xue Yu Lin
Experiment Part
Materials.
All the materials in the experiment are from the aquifer near the petroleum contaminated field.
[3] Ren Wen-Jie, and Zhou Qi-Xing, “Wang Mei-E.Environmental Behavior of BTEX in Soil A review,” Chinese Journal of Ecology, 2009, vol.28. pp. 1647-1654
(Natural Science Edition), 2007, vol. 39. pp. 856-861
“Model for humus in soil sand sediments,” Environmental Science and Technol, 1993, vol. 27. pp. 814-816
All the materials in the experiment are from the aquifer near the petroleum contaminated field.
[3] Ren Wen-Jie, and Zhou Qi-Xing, “Wang Mei-E.Environmental Behavior of BTEX in Soil A review,” Chinese Journal of Ecology, 2009, vol.28. pp. 1647-1654
(Natural Science Edition), 2007, vol. 39. pp. 856-861
“Model for humus in soil sand sediments,” Environmental Science and Technol, 1993, vol. 27. pp. 814-816