Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: March 2016
Authors: Run Sen Jiang, Gang Xu, Zong De Liu, Yong Tian Wang, Jin Tang
Materials Science and Technology. 25 (2009) 687-690
Materials and Design. 63 (2014) 100-108
Advances in Materials Science And Egnineering.
Chinese Journal of Lasers. 38 (2011) 0603017
Materials Characterization. 38(1997) 85-89.
Materials and Design. 63 (2014) 100-108
Advances in Materials Science And Egnineering.
Chinese Journal of Lasers. 38 (2011) 0603017
Materials Characterization. 38(1997) 85-89.
Online since: August 2012
Authors: Li Chao Ren, Jing Luo, Qiang Gao, Mutellip Ahmat
Define the Material Properties.
In the Workbench static structure analysis, the material properties was defined by young's modulus,poisson's ratio and density.In Geometry Data of ANSYS Workbench, the corresponding material properties was edited or newly built.The material of the gear is 17CrNiMo6 in this paper.The material properties parameter is shown in Table 2.
Wang and Ian Howard: Mechanical Engineering Science, Vol.218 (2004) ,pp.l-12
Qing: Journal of China Jiliang University, Vol. 17 (2006) ,pp.119-122.
Zhu: Science and Technology Information,Vol. 19 (2008) ,pp.85-86.
In the Workbench static structure analysis, the material properties was defined by young's modulus,poisson's ratio and density.In Geometry Data of ANSYS Workbench, the corresponding material properties was edited or newly built.The material of the gear is 17CrNiMo6 in this paper.The material properties parameter is shown in Table 2.
Wang and Ian Howard: Mechanical Engineering Science, Vol.218 (2004) ,pp.l-12
Qing: Journal of China Jiliang University, Vol. 17 (2006) ,pp.119-122.
Zhu: Science and Technology Information,Vol. 19 (2008) ,pp.85-86.
Online since: May 2013
Authors: Xu Guang Li, Pan Pan Wang, Hui Min Lu
., School of Materials Sci. & Eng.; 37 Xueyuan Road; Beijing 100191, China
a lhm0862002@yahoo.com.cn
Keywords: Hot-pressing sintering; γ-Ti-46.6Al-1.4Mn-2Mo alloy, GA-BP, Parameters, Microstructure.
[4] Nursel.Ozturk, Ferruh.Ozturk, Hybid neural network and genetic algorithm based machining feature recognition, Journal of Intelligent Manufacturing, 15 (2004) 287-298
Kim, Nucleation and growth of α phase in hot extruded Ti-46.6Al-2Mo-1.4Mn intermetallic alloy produced by hot extrusion of elemental powders, Materials Science and Engineering, A374 (2004), 160-169
Hwang, Consolidation of a gamma TiAl-Mn-Mo alloy by elemental powder metallurgy, Materials Science and Engineering, A239-240 (1997), 540-545
Hwang, Direct consolidation of γ-TiAl-Mn-Mo from elemental powder mixtures and control of porosity through a basic study of powder reactions, Metallurgical and materials transactions A, 28A(1997), 2723-2729.
[4] Nursel.Ozturk, Ferruh.Ozturk, Hybid neural network and genetic algorithm based machining feature recognition, Journal of Intelligent Manufacturing, 15 (2004) 287-298
Kim, Nucleation and growth of α phase in hot extruded Ti-46.6Al-2Mo-1.4Mn intermetallic alloy produced by hot extrusion of elemental powders, Materials Science and Engineering, A374 (2004), 160-169
Hwang, Consolidation of a gamma TiAl-Mn-Mo alloy by elemental powder metallurgy, Materials Science and Engineering, A239-240 (1997), 540-545
Hwang, Direct consolidation of γ-TiAl-Mn-Mo from elemental powder mixtures and control of porosity through a basic study of powder reactions, Metallurgical and materials transactions A, 28A(1997), 2723-2729.
Online since: June 2023
Authors: Yafei Liu, Balaji Raghothamachar, Michael Dudley, Hong Yu Peng, Qian Yu Cheng, Ze Yu Chen, Shanshan Hu, Stephen A. Mancini, Seung Yup Jang, Woong Je Sung
Giannazzo, Materials 14(14) (2021) 3923
Thieberger, Materials Science Forum 1062, 361-365 [4] Z.
Cantin, Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 267(7), 1097-1100
Dudley, Materials Science Forum 1062, 366-370 [15] M.
Sudarshan, Materials Science Forum, vol. 64, pp. 281–283, 2010, doi: 10.1016/j.matlet.2009.10.062.
Thieberger, Materials Science Forum 1062, 361-365 [4] Z.
Cantin, Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 267(7), 1097-1100
Dudley, Materials Science Forum 1062, 366-370 [15] M.
Sudarshan, Materials Science Forum, vol. 64, pp. 281–283, 2010, doi: 10.1016/j.matlet.2009.10.062.
Online since: February 2006
Authors: Yvan Houbaert, Pablo Rodriguez-Calvillo, Rafael Colás
Calvillo
1, a
, Rafael Colás 2, b and Yvan Houbaert
1, c
1
Department of Metallurgy and Materials Science, Laboratory for Materials Physics,
Ghent University, Technologiepark 903, B-9052 Gent, Belgium
2
Facultad de Ingeniería Mecánica y Eléctrica, Universidad Autónoma de Nuevo León,
A.P. 149-F, 66451 San Nicolás de los Garza, N.L., México
a Pablo.RodriguezCalvillo@UGent.be
,
b rcolas@mail.uanl.mx ,
c Yvan.Houbaert@UGent.be
Keywords: Silicon steel, torsion testing, hot working, Tnr
Abstract.
A fundamental study of the workability of such materials using torsion testing may help to understand and to optimise its production.
The material was cooled to room temperature in air after hot rolling.
Bals: Journal of Metals, January 1986
Lehtinen: Metal Science 9, 1975
A fundamental study of the workability of such materials using torsion testing may help to understand and to optimise its production.
The material was cooled to room temperature in air after hot rolling.
Bals: Journal of Metals, January 1986
Lehtinen: Metal Science 9, 1975
Online since: January 2005
Authors: Ju Sheng Ma, Sowjun Matsumura
Properties of Electroless Nickel Composite Plating Film
Sowjun Matsumura
1, 2, a, Ma Jusheng
1, b
1
Department of Materials Science and Engineering, Tsinghua University, Beijing 100084, China
2
OKUNO CHEMICAL INDUSTRIES CO., LTD., OSAKA, Japan
a
s-matsumura01@okuno.co.jp, btemptm@mail.tsinghua.edu.cn
Keywords: Composite plating, Electroless Nickel, PTFE
Abstract.
The composite materials have been widely applied with fine reputations because the new materials have better physical properties and functions than the base materials.
In this paper, its friction properties and abrasion resistance are studied in comparison with other materials.
Table 1 shows the result of friction coefficient of various materials.
[3] Zhou Xiao, Shang Hui-lan, Du Wen-yi: Journal of Materials Protection, Vol. 33 (2000), p.1-3
The composite materials have been widely applied with fine reputations because the new materials have better physical properties and functions than the base materials.
In this paper, its friction properties and abrasion resistance are studied in comparison with other materials.
Table 1 shows the result of friction coefficient of various materials.
[3] Zhou Xiao, Shang Hui-lan, Du Wen-yi: Journal of Materials Protection, Vol. 33 (2000), p.1-3
Online since: October 2011
Authors: Zhi Min Li
Composite material was selected for the shells in this analysis.
It is assumed that R/t = 40 and L2/Rt = 800, all plies are of equal thickness and the total thickness of the shell is t = 3.0 mm and the material properties (Vetrotex E glass fibers, My 750 epoxy resin), adopted as in Messager (2002), are: E11 = 45.6 GPa, E22 = 16.2 GPa, G12 = G13 = 5.83 GPa, G23 = 5.78 GPa, and = 0.278.
Acknowledge The work described in this paper is supported in part by grants from the National Natural Science Foundation of China (No. 50909059) and from the Science and Technology Foundation of the Ministry of Railways of PRC (Contract No. 2010003J-F).
Journal Applied Mechanics, Vol. 24 (1957), p. 125 [4] Z.M.
It is assumed that R/t = 40 and L2/Rt = 800, all plies are of equal thickness and the total thickness of the shell is t = 3.0 mm and the material properties (Vetrotex E glass fibers, My 750 epoxy resin), adopted as in Messager (2002), are: E11 = 45.6 GPa, E22 = 16.2 GPa, G12 = G13 = 5.83 GPa, G23 = 5.78 GPa, and = 0.278.
Acknowledge The work described in this paper is supported in part by grants from the National Natural Science Foundation of China (No. 50909059) and from the Science and Technology Foundation of the Ministry of Railways of PRC (Contract No. 2010003J-F).
Journal Applied Mechanics, Vol. 24 (1957), p. 125 [4] Z.M.
Online since: September 2014
Authors: Ying Qun Liu
Science and Technology Innovation Herald,2009, 03:13-16
Science and technology development and economy, 2007, 17 (14): 276-277
Sichuan building materials.2008, 5:172-173
International Journal of Innovative Computing, Information and Control. 2009, 5(9): 2665-2674.
Science and technology development and economy, 2007, 17 (14): 276-277
Sichuan building materials.2008, 5:172-173
International Journal of Innovative Computing, Information and Control. 2009, 5(9): 2665-2674.
Online since: July 2014
Authors: Hai Jiao Yu, Chen Ci Ma, Yang Yu
Chinese Academy of Sciences, Liaoning, Shenyang, 110164, China
a11185038@qq.com, byuhaijiao.love@qq.com, c789654123zxcvbn@sina.com
Keywords: aerobic granular sludge, SBR, municipal sewage, denitrification and phosphorous removal, DO, organic matter.
Materials and Methods The municipal wastewater was used for the experiments.
Research of Environmental Sciences, Vol. 23 (2010) No.7, p.918
Chinese Journal of Environmental Engineering, Vol. 3 (2009) No., p.413.
Materials and Methods The municipal wastewater was used for the experiments.
Research of Environmental Sciences, Vol. 23 (2010) No.7, p.918
Chinese Journal of Environmental Engineering, Vol. 3 (2009) No., p.413.
Online since: September 2007
Authors: Zi Chen Chen, Zong Wei Fan, Keji Yang
Introduction
Manipulation of biological material, such as cells, is of increasing importance.
Frequently research in biological science requires handling of small samples of cells or even single biological object [1].
Following the formulation deduced by Gor'kov, the scale potential of acoustic radiation force can be written as ] 2 3 [2 2 2 122 0 2 0 3 f v f c p RU >< − >< = ρ ρπ , (4) where ρ0, c is medium density and phase speed in equilibrium respectively, p, v is acoustic pressure and velocity, f1, f2 are two constants related to the properties of material, < > indicates time average operation.
Acknowledgement The authors are gratefully acknowledged the supports by National Natural Science Foundation of China (No. 50375144).
Mironov: Journal of Acoustical Society of America, Vol. 107 (2000), p.143-153 [6] L.
Frequently research in biological science requires handling of small samples of cells or even single biological object [1].
Following the formulation deduced by Gor'kov, the scale potential of acoustic radiation force can be written as ] 2 3 [2 2 2 122 0 2 0 3 f v f c p RU >< − >< = ρ ρπ , (4) where ρ0, c is medium density and phase speed in equilibrium respectively, p, v is acoustic pressure and velocity, f1, f2 are two constants related to the properties of material, < > indicates time average operation.
Acknowledgement The authors are gratefully acknowledged the supports by National Natural Science Foundation of China (No. 50375144).
Mironov: Journal of Acoustical Society of America, Vol. 107 (2000), p.143-153 [6] L.