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Online since: January 2010
Authors: Jia Wen Xu, H. Zhang, J.M. Wang
The effects
of the jet electrolyte during the process mostly consist of electro chemical reaction, effective cooling
with materials and transporting debris.
In the course of JECM-LD, material is removed mainly by laser drilling and the defects are overcame by the effect of jet electrolyte consists of effective cooling to workpiece, transporting debris and electro-chemical reaction with materials.
Lau: Journal of Materials Processing Technology Vol.42 (1994), p.15-49
Yilbas: Journal of Materials Processing Technology Vol.70 (1997), p.264-273
Tyrer: Journal of Laser Applications Vol.11 (1999) No.3, p.128-135
In the course of JECM-LD, material is removed mainly by laser drilling and the defects are overcame by the effect of jet electrolyte consists of effective cooling to workpiece, transporting debris and electro-chemical reaction with materials.
Lau: Journal of Materials Processing Technology Vol.42 (1994), p.15-49
Yilbas: Journal of Materials Processing Technology Vol.70 (1997), p.264-273
Tyrer: Journal of Laser Applications Vol.11 (1999) No.3, p.128-135
Online since: June 2015
Authors: Shamsul Baharin Jamaludin, Mohd Noor Mazlee, Mohd Hanif Abdullah, Kamarudin Hussin
Rizam, Microstructural Study And Differential Scanning Calorimetry Analysis At Elevated Temperatures Of Superheated As-Cast A357 Alloy, International Journal of Mechanical and Materials Engineering. 4 (2009) 181-185
[4] M.
Shakesheff, Influence Of Microstructure And Texture On Mechanical Properties Of Aluminium Alloy 2124/5%Sic Particulate Composites, Materials Science and Technology. 14 (1998) 949-958 [6] Y.
Amin, Potential Of Palm Oil Clinker As Reinforcement In Aluminium Matrix Composites For Tribological Applications, International Journal of Mechanical and Materials Engineering. 6 (2011) 10-17 [7] Y.
Norman Dowling, Mechanical Behavior of Materials, Prentice-Hall International. 1993 [12] S.
Usman, Effects of Heat Treatment on Strength and Ductility of Rolled and Forged Aluminum 6063 Alloy, Journal of Minerals & Materials Characterization & Engineering. 9 (2010) 763-773 [13] G.
Shakesheff, Influence Of Microstructure And Texture On Mechanical Properties Of Aluminium Alloy 2124/5%Sic Particulate Composites, Materials Science and Technology. 14 (1998) 949-958 [6] Y.
Amin, Potential Of Palm Oil Clinker As Reinforcement In Aluminium Matrix Composites For Tribological Applications, International Journal of Mechanical and Materials Engineering. 6 (2011) 10-17 [7] Y.
Norman Dowling, Mechanical Behavior of Materials, Prentice-Hall International. 1993 [12] S.
Usman, Effects of Heat Treatment on Strength and Ductility of Rolled and Forged Aluminum 6063 Alloy, Journal of Minerals & Materials Characterization & Engineering. 9 (2010) 763-773 [13] G.
Online since: October 2010
Authors: A.A. Mohamad, M.N. Masri, M.F.M. Nazeri
Mohamad1,a
1School of Materials and Mineral Resources Engineering
Universiti Sains Malaysia, 14300, Nibong Tebal, Penang, Malaysia
aazmin@eng.usm.my
Keywords: Sago gel polymer electrolyte, viscosity, conductivity, zinc-air battery
Abstract.
AAM thanks MOSTI for the Science Fund (6013367).
Lin: Journal of Power Sources.
Arof: Journal of New Materials for Electrochemical System.
Mohamad: Corrosion Science.
AAM thanks MOSTI for the Science Fund (6013367).
Lin: Journal of Power Sources.
Arof: Journal of New Materials for Electrochemical System.
Mohamad: Corrosion Science.
Online since: August 2020
Authors: Tadashi Nishihara, Takahiro Ohashi, Hamed Mofidi Tabatabaei, Keita Kobayashi
Materials could not completely flow inside the slits on the AS and RS.
Materials Science Forum. 426-432. 2971-2978
Key Engineering Materials. 777. 17-21
Materials Science Forum. 926. 17-22. 10
Materials Science Forum. 838-839. 574-580
Materials Science Forum. 426-432. 2971-2978
Key Engineering Materials. 777. 17-21
Materials Science Forum. 926. 17-22. 10
Materials Science Forum. 838-839. 574-580
Online since: August 2018
Authors: Muhammad Asri Idris, Nur Farhana Mohd Yunos, N.A. Mohd Noor, S.K. Kamarudin, M. Darus
Thus, the diverse methods employed in materials fabrication and analyses have understandably yielded varied findings.
Villagracia: Journal of Electronic Materials Vol 46 (2017), p. 3592-3602 [5] A.
Pellegrini: Science.
Qian: Journal of Hazardous Materials Vol 223-224 (2012), p. 79–83 [17] T.L.
Hanaor: Applied Surface Science.
Villagracia: Journal of Electronic Materials Vol 46 (2017), p. 3592-3602 [5] A.
Pellegrini: Science.
Qian: Journal of Hazardous Materials Vol 223-224 (2012), p. 79–83 [17] T.L.
Hanaor: Applied Surface Science.
Online since: November 2016
Authors: R.S. Coelho, P.A.M.G.P. Bamberg, B. Marx, J.D.V. Barbosa, Uwe Reisgen
Coelho1,*
1 SENAI-CIMATEC, Institute of Innovation for Forming and Joining of Materials,
Av.
As adherend materials it was selected the structural aluminum alloy AA 5083 H111 and the high strength steel DP600.
Materials and Methods Methods.
Materials.
Kaysser-Pyzalla, Friction-stir Dissimilar Welding of Aluminium Alloy to High Strength Steels: Mechanical Properties and Their Relation to Microstructure, Materials Science and Engineering: A, 556, (2012), 175-183
As adherend materials it was selected the structural aluminum alloy AA 5083 H111 and the high strength steel DP600.
Materials and Methods Methods.
Materials.
Kaysser-Pyzalla, Friction-stir Dissimilar Welding of Aluminium Alloy to High Strength Steels: Mechanical Properties and Their Relation to Microstructure, Materials Science and Engineering: A, 556, (2012), 175-183
Online since: July 2006
Authors: Yan Bo Wang, Guang Yu Tan, Yi Ming Rong, Yao Nan Cheng, Zhen Jia Li
Study on the Adhering Disrepair and Groove Optimization of Cutting
Tools for Difficult-to-machine Materials
Z.J.
Acknowledgements This research is supported by the National Natural Science Fund (50275042).
Rong: Key Engineering Materials, Vols.259-260 (2004), pp.1
Wang: Haerbin University of Science and Technology, (2005), No.3, pp.13
Jiang: Wear, Vol.214, (1998) [4] Z.J Li: Journal of Mechanical Engineering, Vol.29, (1993) No.8, pp.4.
Acknowledgements This research is supported by the National Natural Science Fund (50275042).
Rong: Key Engineering Materials, Vols.259-260 (2004), pp.1
Wang: Haerbin University of Science and Technology, (2005), No.3, pp.13
Jiang: Wear, Vol.214, (1998) [4] Z.J Li: Journal of Mechanical Engineering, Vol.29, (1993) No.8, pp.4.
Online since: February 2021
Authors: Kadhim Suffer, Munaf S. Majeed, Rabea Q. Nafil, Marwa F. Abdul Jabbar
Ablation of the materials by Pulsed laser regards as one of the most important methods used in recent years to manufacture nanoparticles [13,14].
Sarmac, Modeling nanomaterial physical properties: theory and simulation”, International Journal of Smart and Nano Materials, 10, (2019), 116 143
Li, Two-dimensional materials with piezoelectric and ferroelectric functionalities, npj, 2, (2018)
Baskoutas, Chemical sensing applications of ZnO nanomaterials, Materials, 11, (2018)
M, "The effect of laser pulse energy on ZnO nanoparticles formation by liquid phase pulsed laser ablation", Journal of materials research and technology, 8(5):4026–4031, (2019)
Sarmac, Modeling nanomaterial physical properties: theory and simulation”, International Journal of Smart and Nano Materials, 10, (2019), 116 143
Li, Two-dimensional materials with piezoelectric and ferroelectric functionalities, npj, 2, (2018)
Baskoutas, Chemical sensing applications of ZnO nanomaterials, Materials, 11, (2018)
M, "The effect of laser pulse energy on ZnO nanoparticles formation by liquid phase pulsed laser ablation", Journal of materials research and technology, 8(5):4026–4031, (2019)
Online since: January 2013
Authors: Lin He, Guang Xi Li, Li Yang, Fan Xin Kong
In order to improve the capacity of the flywheel energy storage system requires the use of a suitable rotor material with reasonable structure.
This material is applied to FESS; it can reduce the mass of the rotor and improve the strength of the structure.
It can provide a theoretical basis to solve the problem that the flywheel rotor due to the high-speed rotation material fracture occurs.
To provide important reference for flywheel manufacturing Acknowledgements The work presented in this paper was supported by International Science & Technology Corporation Subject of China (2010DFB62910).
fatigue and fracture strength of transportation energy storage flywheel using finite element simulation”, Structures and Materials, vol.12 (2003), p235-244
This material is applied to FESS; it can reduce the mass of the rotor and improve the strength of the structure.
It can provide a theoretical basis to solve the problem that the flywheel rotor due to the high-speed rotation material fracture occurs.
To provide important reference for flywheel manufacturing Acknowledgements The work presented in this paper was supported by International Science & Technology Corporation Subject of China (2010DFB62910).
fatigue and fracture strength of transportation energy storage flywheel using finite element simulation”, Structures and Materials, vol.12 (2003), p235-244
Bio-Mechanical Compatibility Assessment of Titanium-Nickel Alloy Fabricated Using Cold Spray Process
Online since: August 2015
Authors: Agripa Hamweendo, Ionel Botef, Lebogang Moloisane
TiNi alloys are preferred above all other materials due to their super elastic ability [9].
Experimental Process Materials, Equipment and Software.
Cui, Stress–strain behaviour of porous NiTi alloys prepared by powders sintering, Materials Science and Engineering A, 408 (2005) 264–26
Chung, Characterization of transformation behaviour in porous Ni-rich NiTi shape memory alloy fabricated by combustion synthesis, Journal of Materials Science, 40 (2005) 773– 776
Bhaduri, Manufacturing and processing of NiTi implants: A review, Progress in Materials Science, 57 (2012) 911–946
Experimental Process Materials, Equipment and Software.
Cui, Stress–strain behaviour of porous NiTi alloys prepared by powders sintering, Materials Science and Engineering A, 408 (2005) 264–26
Chung, Characterization of transformation behaviour in porous Ni-rich NiTi shape memory alloy fabricated by combustion synthesis, Journal of Materials Science, 40 (2005) 773– 776
Bhaduri, Manufacturing and processing of NiTi implants: A review, Progress in Materials Science, 57 (2012) 911–946