Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: November 2012
Authors: Guy Daculsi, Serge Baroth, Pascal Borget, Caroline Colombeix, Thomas Miramond
Journal of materials science, 2010. 45(23): p. 6283-6312
Biomedical Materials, 2006. 1: p.
Key Engineering Materials, 2008. 361: p. 571-574
Key Engineering Materials, 2008. 361: p. 411-414
Journal of Biomedical Materials Research Part A, 2006. 79(2): p. 307-317
Biomedical Materials, 2006. 1: p.
Key Engineering Materials, 2008. 361: p. 571-574
Key Engineering Materials, 2008. 361: p. 411-414
Journal of Biomedical Materials Research Part A, 2006. 79(2): p. 307-317
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: March 2006
Authors: Ji Dong Li, Wei Hu Yang, Lan Wu, Ai Ping Yang, Yu Bao Li, H. Li
Li
f
National Incubation Base for Nano-Biomaterials Industrialization,
Sichuan University, Chengdu 610064, China
a
godsailor@126.com, blyb890130@263.net, cwlmiss@163.com,
d
yangaip@yahoo.com.cn
e
blueljd@163.com, fhlisofe@yahoo.com.cn * Corresponding author
Keywords: Antibacterial material, silver peroxide, ferrate, stainless steel
Abstract.
Scanning electronic microscopy(SEM), X-ray(XRD) and atomic absoption spectroscopy(AAS) were employed to analyze the materials, and the results showed that the antibacterial membrane included silver citrate and silver peroxide.
How to improve stainless steel antibacterial property has become the hot issue in materials field.
Experimental 2.1 Materials preparation 1Cr18Ni9 stainless steel were dipped into FeCl3 solution for 10 min. and then cleaned ultrasonically in distilled water.
Gerardin: Journal of Solid State Chemical, VOL 165(2002), p 266-277 [9] Karel Bouzek, Martin J.Schmidt, Anthony A.Wragg: Electrochemistry Communications, VOL 1(1999),p370-374 [10] I.T.Hong, C.H.Koo: Materials Science and Engineering,Vol A 393(2005), p220 d c a b
Scanning electronic microscopy(SEM), X-ray(XRD) and atomic absoption spectroscopy(AAS) were employed to analyze the materials, and the results showed that the antibacterial membrane included silver citrate and silver peroxide.
How to improve stainless steel antibacterial property has become the hot issue in materials field.
Experimental 2.1 Materials preparation 1Cr18Ni9 stainless steel were dipped into FeCl3 solution for 10 min. and then cleaned ultrasonically in distilled water.
Gerardin: Journal of Solid State Chemical, VOL 165(2002), p 266-277 [9] Karel Bouzek, Martin J.Schmidt, Anthony A.Wragg: Electrochemistry Communications, VOL 1(1999),p370-374 [10] I.T.Hong, C.H.Koo: Materials Science and Engineering,Vol A 393(2005), p220 d c a b
Online since: October 2010
Authors: Jun Fu Wei, Yi Ping Zhao, Hai Tao Wang, Li Chen, Hai Yang Zhao
Experimental Section
Materials.
Li; et al, Journal of Applied Polymer Science, Vol. 969(6), 2005, p.2163 [5] M.
Mizoshita, et al, Advanced Materials, Vol. 15(16), 2003, p.1335 [6] M.
Akashi, Journal of Applied Polymer Science, Vol. 102(6), 2006, p.5351 [8] H.
Chemistry of Materials, Vol. 5(2), 1993, p.229
Li; et al, Journal of Applied Polymer Science, Vol. 969(6), 2005, p.2163 [5] M.
Mizoshita, et al, Advanced Materials, Vol. 15(16), 2003, p.1335 [6] M.
Akashi, Journal of Applied Polymer Science, Vol. 102(6), 2006, p.5351 [8] H.
Chemistry of Materials, Vol. 5(2), 1993, p.229
Online since: January 2016
Authors: Er Liang Liu, Teng Da Wang, Zhen Li, Na Zhao, Ling Chen Min
The workpiece materials Titanium alloy Ti6A14V constitutive equation of the parameters are shown in Table 1:
Table 1 Ti6A14V constitutive equation parameters
A
B
C
m
n
1098
1092
0.014
1.1
0.93
The distribution of normal stress and shear stress along the x direction on the rake surface as shown in the Fig.2.
The reasons for this phenomenon is the material thermal softening effect, the increasing temperature reduced the material flow stress.
International journal of Machine Tools & Manufacture.1997,(37):885-899
A new stress-based model of friction characteristic in machining and Its significant impact on residual stresses computed by finite element method[J].International Journal of Mechanical Sciences,2002,(44):703-723
[4] W Grzesik.The role of coatings in controlling the cutting process when turning with coated Indexable inserts[J].Journal of Materials Processing Technology,1998,(79):133-143
The reasons for this phenomenon is the material thermal softening effect, the increasing temperature reduced the material flow stress.
International journal of Machine Tools & Manufacture.1997,(37):885-899
A new stress-based model of friction characteristic in machining and Its significant impact on residual stresses computed by finite element method[J].International Journal of Mechanical Sciences,2002,(44):703-723
[4] W Grzesik.The role of coatings in controlling the cutting process when turning with coated Indexable inserts[J].Journal of Materials Processing Technology,1998,(79):133-143
Online since: May 2012
Authors: Bao Xian Liu, Qian Tao, Chao Luo, Hai Yang Xu, Li Meng, Zi Hong Guo
As a mean of nondestructive testing, acoustic emission techniques have been widely used in many fields such as materials science [1-2], geology [3] and civil engineering [4-6].
Construction and Building Materials.
International Journal of Rock Mechanics & Mining Sciences Vol. 47 (2010), p. 1254-1262 [12] H.
International Journal of Rock Mechanics & Mining Sciences Vol. 44 (2007), p. 108-119 [13] M.C.
International Journal of Rock Mechanics & Mining Sciences Vol. 47 (2010), p. 286-298 [14] Z.A.
Construction and Building Materials.
International Journal of Rock Mechanics & Mining Sciences Vol. 47 (2010), p. 1254-1262 [12] H.
International Journal of Rock Mechanics & Mining Sciences Vol. 44 (2007), p. 108-119 [13] M.C.
International Journal of Rock Mechanics & Mining Sciences Vol. 47 (2010), p. 286-298 [14] Z.A.
Online since: July 2012
Authors: Niu Can Liu, Guang Sheng Kang, Zhong Xia Liu
Ding: Materials Letters Vol.56(2002), p.53
[2] Q.
Ding: Materials Letters Vol.57(2003), p.3851 [3] J.
Zhou: Journal of Materials Science Letters Vol.19(2000), p.1825 [4] C.
Nemati: Materials Science and Engineering Vol.A490 (2008) , p.250 [8] Q.
Li: Advanced Materials Research Vol. 311(2011), p.197
Ding: Materials Letters Vol.57(2003), p.3851 [3] J.
Zhou: Journal of Materials Science Letters Vol.19(2000), p.1825 [4] C.
Nemati: Materials Science and Engineering Vol.A490 (2008) , p.250 [8] Q.
Li: Advanced Materials Research Vol. 311(2011), p.197
Online since: March 2013
Authors: Aphrodite Ktena, Evangelos Hristoforou
The Preisach formalism is used as a basis for a vector model of magnetic hysteresis in soft magnetic materials subject to tensile stress.
Nagao, Magnetic properties of dislocations, in Concise encyclopedia of magnetic and superconducting materials, Ed.
Padovese, Simulation of the Barkhausen Noise using random field Ising model with long-range interaction, Computational Materials Science 44, 850–857(2009) [3] Katsuhiko Yamaguchi, Shinya Tanaka, Osamu Nittono, Koji Yamada, Toshiyuki Takagi, Monte Carlo simulation for magnetic dynamic processes of micromagnetic clusters with local disorder, Physica B 372, 251–255 (2006) [4] B.
Buiron, Magnetic behaviour versus tensile deformation mechanisms in a nonoriented Fe/(3 wt.%)Si steel, Materials Science and Engineering A359, 62-74 (2003) [10] A.
Massalas, Identification of 1D and 2D Preisach models for ferromagnets and shape memory alloys, International Journal of Engineering Science, 40 (20), 2235-2247 (2002) [11] Shuqiang Yang, G.
Nagao, Magnetic properties of dislocations, in Concise encyclopedia of magnetic and superconducting materials, Ed.
Padovese, Simulation of the Barkhausen Noise using random field Ising model with long-range interaction, Computational Materials Science 44, 850–857(2009) [3] Katsuhiko Yamaguchi, Shinya Tanaka, Osamu Nittono, Koji Yamada, Toshiyuki Takagi, Monte Carlo simulation for magnetic dynamic processes of micromagnetic clusters with local disorder, Physica B 372, 251–255 (2006) [4] B.
Buiron, Magnetic behaviour versus tensile deformation mechanisms in a nonoriented Fe/(3 wt.%)Si steel, Materials Science and Engineering A359, 62-74 (2003) [10] A.
Massalas, Identification of 1D and 2D Preisach models for ferromagnets and shape memory alloys, International Journal of Engineering Science, 40 (20), 2235-2247 (2002) [11] Shuqiang Yang, G.
Online since: March 2016
Authors: Hui Jun Kang, Tong Min Wang, Wan Xia Huang, Fen Fen Yang, Ren Geng Li, 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: March 2011
Authors: Zhan Qiang Liu, J. Du
This was due to at low cutting speed, with the increasing of cutting speed, the fraction between tool and work-piece and the plastic deformation of materials was raised.
Recent development in nickel-based powder superalloy used in aircraft turbines [J], Material Journal, 2002.16(11):17-19 [4] J.W.Zou, W.X.Wang, Development and application of P/M superalloy[J], Journal of Aeronautical Materials, 2006.26(3):244-249 [5] B.F.Hu, S.H.Zhang, Study on a nickel base superalloy FGH95 of turbine disc[J], Transactions of metal heat treatment, 1997.18(3):28-36 [6] S.H.Zhang, B.F.Hu, H.Y.Li, et al.
The microstructure and properties of a nickel base superalloy FGH95 [J], Journal of University of Science and Technology Beijing, 1993.15(1):1-9 [7] E.Q.Ezugwu, Z.M.Wang, A.R.Machado, The machinability of nickel-based alloys: a review [J], Journal of Materials Processing Technology, 1999.1(16):1-15 [8] S.H.Zhang, B.F.Hu, H.Y.Li, et al.
The microstrcture and properties of a nickel base superalloy FGH95 [J], Journal of University of Science and Technology Beijing, 1993.15 (1):1-9
High Temperature Oxidation Behavior and Infrared Character of a Ni-Based Superalloy K424[J], Rare Metal Materials and Engineering, 2008.37 (8):1411-1414.
Recent development in nickel-based powder superalloy used in aircraft turbines [J], Material Journal, 2002.16(11):17-19 [4] J.W.Zou, W.X.Wang, Development and application of P/M superalloy[J], Journal of Aeronautical Materials, 2006.26(3):244-249 [5] B.F.Hu, S.H.Zhang, Study on a nickel base superalloy FGH95 of turbine disc[J], Transactions of metal heat treatment, 1997.18(3):28-36 [6] S.H.Zhang, B.F.Hu, H.Y.Li, et al.
The microstructure and properties of a nickel base superalloy FGH95 [J], Journal of University of Science and Technology Beijing, 1993.15(1):1-9 [7] E.Q.Ezugwu, Z.M.Wang, A.R.Machado, The machinability of nickel-based alloys: a review [J], Journal of Materials Processing Technology, 1999.1(16):1-15 [8] S.H.Zhang, B.F.Hu, H.Y.Li, et al.
The microstrcture and properties of a nickel base superalloy FGH95 [J], Journal of University of Science and Technology Beijing, 1993.15 (1):1-9
High Temperature Oxidation Behavior and Infrared Character of a Ni-Based Superalloy K424[J], Rare Metal Materials and Engineering, 2008.37 (8):1411-1414.