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Online since: February 2019
Authors: Hocine Bendjama, Noureddine Guersi, Ouzine Boussaid, Walid Ghennai
The Coulomb friction coefficient depends on the contact surfaces of materials.
Tyne, Predicting instability at die radii in advanced high strength steels, Journal of Material Processing Technology, 210 (2010) 741–750
Materials and Product Technology, Vol 21, Num 1/2/3 (2004) 89-105
Nass, Optimization of the blank holder force, journal of Achievements in Materials and Manufacturing Engineering, Vol 18 (2006) 1-2
Wierzbicki, Prediction of shear-induced fracture in sheet metal forming, Journal of Materials Processing Technology, Vol 210 (2010) 1858–1869.
Tyne, Predicting instability at die radii in advanced high strength steels, Journal of Material Processing Technology, 210 (2010) 741–750
Materials and Product Technology, Vol 21, Num 1/2/3 (2004) 89-105
Nass, Optimization of the blank holder force, journal of Achievements in Materials and Manufacturing Engineering, Vol 18 (2006) 1-2
Wierzbicki, Prediction of shear-induced fracture in sheet metal forming, Journal of Materials Processing Technology, Vol 210 (2010) 1858–1869.
Online since: May 2014
Authors: A. Roshan, Mohd Khairol Anuar Mohd Ariffin, Sreenivasan Sulaiman
Dureja, Effect of tool geometry variation on finish turning – A Review, Journal of Engineering Science and Technology Review. 4 (2011) 1-13
Seker, Experimental investigation of the effect of cutting tool rake angle on main cutting force, Journal of Materials Processing Technology. 166 (2005) 44–49
Wu, Nanometric cutting of copper: A molecular dynamics study, Computational Materials Science. 37 (2006) 434–441
Aspinwall, Modelling of hard part machining, Journal of Materials Processing Technology. 127 (2002) 222–229
Zhang, Adiabatic shear banding in AISI 1045 steel during high speed machining: Mechanisms of microstructural evolution, Journal of Material science and Engineering A. 532 (2012) 111-119
Seker, Experimental investigation of the effect of cutting tool rake angle on main cutting force, Journal of Materials Processing Technology. 166 (2005) 44–49
Wu, Nanometric cutting of copper: A molecular dynamics study, Computational Materials Science. 37 (2006) 434–441
Aspinwall, Modelling of hard part machining, Journal of Materials Processing Technology. 127 (2002) 222–229
Zhang, Adiabatic shear banding in AISI 1045 steel during high speed machining: Mechanisms of microstructural evolution, Journal of Material science and Engineering A. 532 (2012) 111-119
Online since: December 2013
Authors: Ying Yan, Yu Ping Guo, Lan Kun Cai, Qiong Wu, Hao Zhou, Lai Ming Wu
These gases which do harm to human beings [4] at a low concentration can be released from decorative materials [5, 6], vehicle exhausts [7], industry manufacture [8] etc.
Grossi: Chemistry Central Journal Vol. 6(1) (2012), p.21
Kang, et al: Journal of Natural Gas Chemistry Vol. 20(5) (2011), p.515-519
Li: Journal of Materials Science-materials in Electronics Vol. 22(4) (2011), p.418-421
Khalid: Journal of Hazardous Materials Vol. 186 (2-3) (2011), p.2037-2042
Grossi: Chemistry Central Journal Vol. 6(1) (2012), p.21
Kang, et al: Journal of Natural Gas Chemistry Vol. 20(5) (2011), p.515-519
Li: Journal of Materials Science-materials in Electronics Vol. 22(4) (2011), p.418-421
Khalid: Journal of Hazardous Materials Vol. 186 (2-3) (2011), p.2037-2042
Online since: July 2011
Authors: Zhi Min Zhang, Fang Wang, Lu Cai Wang
Progress in Materials Science,2001,46: 559-632
[2] Ashhy M F, Evans A G, Fleck N A, et al.
The deformation of foamed elastic materials [J] .
Journal of Applied Polymer Science, 1959, 1 (1): 107-113
The mechanics of three-dimentional cellular materials [J].
Journal of Mechanical strength. 2009,31(4):625-628
The deformation of foamed elastic materials [J] .
Journal of Applied Polymer Science, 1959, 1 (1): 107-113
The mechanics of three-dimentional cellular materials [J].
Journal of Mechanical strength. 2009,31(4):625-628
Online since: February 2022
Authors: Sergey A. Ilinykh, Vladimir A. Krashaninin, Nina I. Ilinykh, Leopold Leontiev
Modification of the Surface of Structural Materials by Concentrated Energy Flows in Order to Improve Their Performance Properties
S.A.
Leontiev1,d 1Institute of Metallurgy of the Ural Branch of the Russian Academy of Sciences, 101 Amundsen Str., Ekaterinburg, Russia, 620016, asergil1957@mail.ru, bkrash55@mail.ru, cninail@bk.ru, dleo@presidium.ras.ru Keywords: surface modification, plasma, coating, hardness, microtuberance Abstract.
The work is devoted to the basics of surface modification of structural materials for the effective protection of machine parts and mechanisms operated in extreme conditions from the mechanical impact of aggressive media, by the method of plasma-chemical exposure to concentrated streams of matter and energy by means of plasma generators, which allow for surface renovation and engineering.
The algorithm is based on the differential non-stationary equation of thermal conductivity inside the processed product , where – the material’s density, С – the specific heat capacity of the material, k – coefficient of thermal conductivity of the material, Q – energy source.
Monteiro, “Surface hardening by plasma nitriding on high chromium alloy steel,” Journal of Materials Science Letters, vol. 20, pp. 147–149, 2001
Leontiev1,d 1Institute of Metallurgy of the Ural Branch of the Russian Academy of Sciences, 101 Amundsen Str., Ekaterinburg, Russia, 620016, asergil1957@mail.ru, bkrash55@mail.ru, cninail@bk.ru, dleo@presidium.ras.ru Keywords: surface modification, plasma, coating, hardness, microtuberance Abstract.
The work is devoted to the basics of surface modification of structural materials for the effective protection of machine parts and mechanisms operated in extreme conditions from the mechanical impact of aggressive media, by the method of plasma-chemical exposure to concentrated streams of matter and energy by means of plasma generators, which allow for surface renovation and engineering.
The algorithm is based on the differential non-stationary equation of thermal conductivity inside the processed product , where – the material’s density, С – the specific heat capacity of the material, k – coefficient of thermal conductivity of the material, Q – energy source.
Monteiro, “Surface hardening by plasma nitriding on high chromium alloy steel,” Journal of Materials Science Letters, vol. 20, pp. 147–149, 2001
Online since: October 2007
Authors: Lian Meng Zhang, Ming Du, Yan Qin, Zhi Xiong Huang, Yan Bing Wang
Review: Materials for vibration damping.
Journal of Materials Science, Vol.36(2001), p.5733-5737 [2] Buravalla V.R., Remillat C., Rongong J.A., Tomlinson G.R.
Journal of polymer science: Polymer physics, Vol.37(1999), p.3065~3070 [11] Z.M.
Materials Science and Engineering, B103, 2003: 140~144 [12] Asmatulu R., Claus R.O, etal.
Journal of materials science, Vol. 30(1995), p. 2648~2654
Journal of Materials Science, Vol.36(2001), p.5733-5737 [2] Buravalla V.R., Remillat C., Rongong J.A., Tomlinson G.R.
Journal of polymer science: Polymer physics, Vol.37(1999), p.3065~3070 [11] Z.M.
Materials Science and Engineering, B103, 2003: 140~144 [12] Asmatulu R., Claus R.O, etal.
Journal of materials science, Vol. 30(1995), p. 2648~2654
Online since: June 2012
Authors: Liang Liu, Bao Cai Xu
Preparing and Characterization of Hollow Ceramic Microspheres
Liang Liua ,Baocai Xu
Institute of Advanced Materials, Mechanical Engineering College, Shijiazhuang 050003, China
a Llppmouse@163.com
Keywords: Hollow ceramic microspheres; Absorb material; Self-reactive flame spraying method; equips of collection
Abstract: The hollow microsphere is a kind of new materials .Its comprehensive performance is excellent and has a bright future.
Fig.1 SEM of the hollow ceramic microsphere Fig.2 XRD of the hollow ceramic microsphere As a bran-new microballoon materia, hollow microsphere can also be used for stealth materials.
Journal of Central South University of Technology. 4 (2011) 35-41
Journal of University of Science and Technology Beijing. 4(2004) 20-24
Journal of Central South University of Technology. 2(2004) 34-36
Fig.1 SEM of the hollow ceramic microsphere Fig.2 XRD of the hollow ceramic microsphere As a bran-new microballoon materia, hollow microsphere can also be used for stealth materials.
Journal of Central South University of Technology. 4 (2011) 35-41
Journal of University of Science and Technology Beijing. 4(2004) 20-24
Journal of Central South University of Technology. 2(2004) 34-36
Online since: September 2013
Authors: Bambang Soegijono, Dwita Suastiyanti, M. Hikam
This research was being an earlier research to form multiferroic materials.
It confirms material lead to form good characteristics of multiferroic materials.
[7] H.Seema, S.K.Durrani.S.K, K.Saeed, I.Mohammadzai, N.Husaain, “Auto-combustion synthesis and characterization of multi-ferroic (BiFeO3) materials”, JPMS Conference Issue Materials, 2010
[8] T.Singanahally, Aruna, S.Alexander, Mukasyan, “Combustion synthesis and nanomaterials”, Current Opinion in Solid State and Materials Science 12 pp 44-50, 2008
[9] D.Suastiyanti, B.Soegijono, “Shifting of x-ray diffraction pattern peak on BaFe12O19 nanocrystalline produced by sol gel auto combustion method”, Advanced Materials Research Journal 576 pp 240-243, 2012.
It confirms material lead to form good characteristics of multiferroic materials.
[7] H.Seema, S.K.Durrani.S.K, K.Saeed, I.Mohammadzai, N.Husaain, “Auto-combustion synthesis and characterization of multi-ferroic (BiFeO3) materials”, JPMS Conference Issue Materials, 2010
[8] T.Singanahally, Aruna, S.Alexander, Mukasyan, “Combustion synthesis and nanomaterials”, Current Opinion in Solid State and Materials Science 12 pp 44-50, 2008
[9] D.Suastiyanti, B.Soegijono, “Shifting of x-ray diffraction pattern peak on BaFe12O19 nanocrystalline produced by sol gel auto combustion method”, Advanced Materials Research Journal 576 pp 240-243, 2012.
Online since: July 2023
Authors: Agus Prasetya, Syukur Syukur, Ahmad Tawfiequrrahman Yuliansyah
This research used two materials namely LECA and tin acid mine drainage.
Both materials were contacted for two days in shaker bath.
Materials used in this research were; 1.
Basheer, Adsorption and Desorption of Heavy Metals onto Natural Clay Material: Influence of Initial pH, Journal of Environmental Science and Technology 6(1) (2013) 1-15. doi: 10.3923/jest.2013.1.15 [29] M.
Mikhail, Removal of heavy metals via adsorption using natural clay material, Journal of Environment and Earth Science 4 (2016) 38–47.
Both materials were contacted for two days in shaker bath.
Materials used in this research were; 1.
Basheer, Adsorption and Desorption of Heavy Metals onto Natural Clay Material: Influence of Initial pH, Journal of Environmental Science and Technology 6(1) (2013) 1-15. doi: 10.3923/jest.2013.1.15 [29] M.
Mikhail, Removal of heavy metals via adsorption using natural clay material, Journal of Environment and Earth Science 4 (2016) 38–47.
Online since: November 2012
Authors: Zhi Fa Wang, Yue Jun Chen, Li Xue Yu, Jing Long Bu, You Fu Guo, Ming Yue Zheng
Influence of Grain Composition and Sintering Temperature on Performance of Silicon Carbide Refractory Material
Mingyue Zheng1, Youfu Guo1, 2, Jinglong Bu1, a, Yuejun Chen1, Lixue Yu1,
Zhifa Wang1, b
1Hebei Provincial Key Laboratory of Inorganic Nonmetallic Materials, College of Materials Science and Engineering, Hebei United University, Tangshan, 063009, China
2Tangshan Hexagon Silicon Carbide Co.
Experimental Raw Materials.
Wang: Refractory materials technology(2rd edition).
Yan: Journal of Wuhan University of Technology.
Wang, et al: Journal of Xi’An Jiaotong university.
Experimental Raw Materials.
Wang: Refractory materials technology(2rd edition).
Yan: Journal of Wuhan University of Technology.
Wang, et al: Journal of Xi’An Jiaotong university.