Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: May 2021
Authors: R. Sridharan, V.V. Muhammed Anees, K.P. Abdul Nazar
Journal of Global Optimization (2019) 74(4) 879-908
Management Science Letters (2018) 8(4) 187-200
Journal of Intelligent Manufacturing (2017) 28(8) 1827-1845
Iranian Journal of Fuzzy Systems (2017) 14(2) 45-77
Journal of Cleaner Production (2020) 124610
Management Science Letters (2018) 8(4) 187-200
Journal of Intelligent Manufacturing (2017) 28(8) 1827-1845
Iranian Journal of Fuzzy Systems (2017) 14(2) 45-77
Journal of Cleaner Production (2020) 124610
Online since: November 2011
Authors: Mohammad Azadi, Mehdi Roopaei, Mohammad Eghtesad, S. Ahmad Fazelzadeh
Journal of Sound and Vibration, 264, pp. 911–928, 2003
Hwang, "Panel Flutter Suppression with an Optimal Controller Based on the Nonlinear Model Using Piezoelectric Materials".
International Journal of Mechanical Sciences, 49, pp. 1389–1398, 2007
Aerospace Science and Technology, 13, pp. 277–290, 2009
Journal of Sound and Vibration, 324, pp. 832–849, 2009
Hwang, "Panel Flutter Suppression with an Optimal Controller Based on the Nonlinear Model Using Piezoelectric Materials".
International Journal of Mechanical Sciences, 49, pp. 1389–1398, 2007
Aerospace Science and Technology, 13, pp. 277–290, 2009
Journal of Sound and Vibration, 324, pp. 832–849, 2009
Online since: September 2014
Authors: Jian Yun Shen, Xi Peng Xu, Xin Xiang, Zhong Wei Hu
The study of the sawing force has important theoretical and practical significance in sawing of hard and brittle materials.
It is very important for improving the machinability of materials.
[4] Vogt B, Ultrasonic technology revolutionists the machining of brittle-hard materials.
[6] Sun Yazhou, Zhang Jing, Liu Haitao, Experimental research on ultrasonic torsional vibration-assisted grinding of hard and brittle materials, Key Engineering Materials.
Journal of materials processing technology, 62(1996), pp.287-293
It is very important for improving the machinability of materials.
[4] Vogt B, Ultrasonic technology revolutionists the machining of brittle-hard materials.
[6] Sun Yazhou, Zhang Jing, Liu Haitao, Experimental research on ultrasonic torsional vibration-assisted grinding of hard and brittle materials, Key Engineering Materials.
Journal of materials processing technology, 62(1996), pp.287-293
Online since: September 2013
Authors: Sivakumar Naganathan, Alaa.A. Shakir, Kamal Nasharuddin Bin Mustapha
Bricks were made with various proportions of those materials and cement.
Materials and Methods Materials used.
The chemical and physical properties of the constituent materials are given in Table 1.
The materials were weighed according to the given ratio.
[2] Eduardo A.Dominguez, Rosa Ullman,Ecological bricks made with clay and steel dust pollutant, Clay science journal,11(1996) 237-249
Materials and Methods Materials used.
The chemical and physical properties of the constituent materials are given in Table 1.
The materials were weighed according to the given ratio.
[2] Eduardo A.Dominguez, Rosa Ullman,Ecological bricks made with clay and steel dust pollutant, Clay science journal,11(1996) 237-249
Online since: November 2013
Authors: Raj D. Chordia, M. Venkat Raman, S. Sai Prashanth, J. Prasanna
Wallace, Titanium alloys and processing for high speed aircraft, Material Science and Engineering.
Yamane, An overview of the machinability of aero engine alloys, Journal of Materials Processing Technology. 134(2003) 233-253
Materials and Design.
[6] Jindal A., "Analysis of Tool Wear Rate in Drilling Operation using Scanning Electron Microscope (SEM)," Journal of Minerals and Materials Characterization and Engineering, Vol. 11 No. 1, 2012, pp. 43-54
[7] Chao-Wei Tang , Hong-TsuYoung, “Using Grey relational analysis to determine wet chemical etching parameters in through-silicon-via etching application”, Materials Science in Semiconductor Processing, 16 (2013) 403–409.
Yamane, An overview of the machinability of aero engine alloys, Journal of Materials Processing Technology. 134(2003) 233-253
Materials and Design.
[6] Jindal A., "Analysis of Tool Wear Rate in Drilling Operation using Scanning Electron Microscope (SEM)," Journal of Minerals and Materials Characterization and Engineering, Vol. 11 No. 1, 2012, pp. 43-54
[7] Chao-Wei Tang , Hong-TsuYoung, “Using Grey relational analysis to determine wet chemical etching parameters in through-silicon-via etching application”, Materials Science in Semiconductor Processing, 16 (2013) 403–409.
Online since: July 2015
Authors: Yuan Hao, Chao Peng Huang, Wen Ming Song, Ying Ma, Gui Rong Yang
Introduction
The metal/ceramics composite materials have good wear resistance for all kinds of parts requiring wear performance under different application circumstance.
Many studies have shown that the addition of solid lubricant could increase the wear resistance of alloy or composite materials under the condition of work in the oil free or less oil lubrication materials [6-9].
The Ni/WC composite coating or Ni/G composite materials have studied by many researchers.
The strengthening hard particles and solid lubricant combined for improving the wear resistance of materials accompanied by antifriction effect have rarely been reported.
Part 1: General Facts, Wear and Corrosion Investigations[J], Tribology Transactions, 2014,57(6): 955-979 [4] Young Soo Park,Dong Ho Bae, Assessment of the crack growth characteristics at the low fatigue limit of a multi-pass welded Ni-based alloy 617[J], Journal of Mechanical Science and Technology, 2014,28(4): 1251-1256 [5] Liyanage T, Fisher G, Gerlich A P.
Many studies have shown that the addition of solid lubricant could increase the wear resistance of alloy or composite materials under the condition of work in the oil free or less oil lubrication materials [6-9].
The Ni/WC composite coating or Ni/G composite materials have studied by many researchers.
The strengthening hard particles and solid lubricant combined for improving the wear resistance of materials accompanied by antifriction effect have rarely been reported.
Part 1: General Facts, Wear and Corrosion Investigations[J], Tribology Transactions, 2014,57(6): 955-979 [4] Young Soo Park,Dong Ho Bae, Assessment of the crack growth characteristics at the low fatigue limit of a multi-pass welded Ni-based alloy 617[J], Journal of Mechanical Science and Technology, 2014,28(4): 1251-1256 [5] Liyanage T, Fisher G, Gerlich A P.
Online since: September 2018
Authors: Lahcene Mebarki, Lazhar Baroura, Ommar Bourabbou, Massaoud Bendaoui
Influence of the Variation of the Thickness of a Bilayers Cu/(001) Fe in Isotropic Elasticity on the Field of Displacements
Lazhar BAROURA1a*, Ommar BOURABBOU2b,
Massaoud BENDAOUI3c and Lahcen MEBARKI4d
1Laboratory of Mechanics of the Structures and Materials,
University of Batna 2, 05000, Algeria
2Département de Génie Mécanique, Faculté des sciences et de la technologie,
Université Mohamed Khider, Biskra, Algérie
3Département de Mécanique, Faculté de technologie, Université Batna 2, Algérie
4Laboratoire de Génie Énergétique et matériaux-LGEM, Département de Génie Mécanique, Université de Biskra B.P.145 R.P., 07000, Biskra, Algérie
*barouralaz@yahoo.fr
Keywords: epitaxy, bilayers, isotropic elasticity, dislocation networks, interface.
The topology of the free surfaces is calculated according to the total thickness of the bilayers strip until a relaxation is reached for a thickness "h" called critical thickness. 1- Introduction The design of materials whose properties must be optimal becomes a requirement in advanced technology because it is necessary, on the one hand, to collect the maximum properties and, on the other hand, to predict the behavior of these materials to Using a numerical simulation program, based on the Fourier series analysis of the deformation fields [1], we will present, using the isotropic elastic theory, the results of the displacement fields generated by a unidirectional network of dislocations corners located at the interface of a bicrystal.
Adami Journal of Colloid and Interface Science 282(2005) 120-123 [8] R.
Benbouta, The Effect of the Elastic Fields Caused by a networks of Dislocations Placed at Interfaces of a Three-Layer Material Cu/Cu/(001) Fe in the Case of Anisotropic Elasticity, Arab.
Benbouta, Influence of anisotropy on the constraints field of a bicrystal (layer/substrate) under the effect of a network of interfacial dislocations, Journal of the Association of Arab Universities for Basic and Applied Sciences (2013) 13,57–62
The topology of the free surfaces is calculated according to the total thickness of the bilayers strip until a relaxation is reached for a thickness "h" called critical thickness. 1- Introduction The design of materials whose properties must be optimal becomes a requirement in advanced technology because it is necessary, on the one hand, to collect the maximum properties and, on the other hand, to predict the behavior of these materials to Using a numerical simulation program, based on the Fourier series analysis of the deformation fields [1], we will present, using the isotropic elastic theory, the results of the displacement fields generated by a unidirectional network of dislocations corners located at the interface of a bicrystal.
Adami Journal of Colloid and Interface Science 282(2005) 120-123 [8] R.
Benbouta, The Effect of the Elastic Fields Caused by a networks of Dislocations Placed at Interfaces of a Three-Layer Material Cu/Cu/(001) Fe in the Case of Anisotropic Elasticity, Arab.
Benbouta, Influence of anisotropy on the constraints field of a bicrystal (layer/substrate) under the effect of a network of interfacial dislocations, Journal of the Association of Arab Universities for Basic and Applied Sciences (2013) 13,57–62
Online since: October 2009
Authors: Sung Cheol Yoon, Sung Tae Kwon, Jeong Guk Kim
Therefore, the understanding of hot spots, also called hot judder, which is undesirable low
frequency vibrations developed by non-uniform contact area between brake pad material and brake
disc, is important for a better understanding of material design as well as enhancement of materials
properties in railway brake disc.
Kwon: Key Engineering Materials, Vols. 385-387 (2008), p. 669
Liaw: Journal of Engineering Materials and Technology, Vol. 127, (2005), p. 8
Jeong: Key Engineering Materials, Vols. 297-300, (2005), p. 2533
Liaw: Materials Science and Engineering A, Vol. 409, (2005), p. 302.
Kwon: Key Engineering Materials, Vols. 385-387 (2008), p. 669
Liaw: Journal of Engineering Materials and Technology, Vol. 127, (2005), p. 8
Jeong: Key Engineering Materials, Vols. 297-300, (2005), p. 2533
Liaw: Materials Science and Engineering A, Vol. 409, (2005), p. 302.
Online since: January 2011
Authors: Ying Xiong
Q345 steel is one of widely used materials in china.
Table 3 Material constants for Q345 steel weld materials i c(i) r(i) χ(i) 1 2041 77 100 2 408.2 57 100 3 102.1 63.1 100 4 20.41 108 100 5 0.08165 457 100 The two-dimensional FE mesh model is created as shown in Figure 2.
Sehitoglu: Journal of Applied Mechanics Vol. 63 (1996), p.720 [9] Y.
Sehitoglu: Journal of Applied Mechanics Vol. 63 (1996), p. 726 [10] X.Wang, Z.Gao, T.Zhao and Y.
Jiang: Journal of Pressure Vessel Technology 131, (2009), p. 1
Table 3 Material constants for Q345 steel weld materials i c(i) r(i) χ(i) 1 2041 77 100 2 408.2 57 100 3 102.1 63.1 100 4 20.41 108 100 5 0.08165 457 100 The two-dimensional FE mesh model is created as shown in Figure 2.
Sehitoglu: Journal of Applied Mechanics Vol. 63 (1996), p.720 [9] Y.
Sehitoglu: Journal of Applied Mechanics Vol. 63 (1996), p. 726 [10] X.Wang, Z.Gao, T.Zhao and Y.
Jiang: Journal of Pressure Vessel Technology 131, (2009), p. 1
Online since: March 2012
Authors: Fan Xiu Lu, Guang Chao Chen, Cheng Ming Li, Li Fu Hei, Jian Hua Song, Wei Zhong Tang
Novikov: Journal of Materials Processing Technology Vol. 161 (2005), p. 169
Okada: Science and Technology of Advanced Materials Vol. 8 (2007), p. 624
Aslam: Diamond and Related Materials Vol. 15 (2006), p. 254
Pickles: Diamond and Related Materials Vol. 5 (1996), p. 625
Pickles: Diamond and Related Materials Vol. 5 (1996), p. 625
Okada: Science and Technology of Advanced Materials Vol. 8 (2007), p. 624
Aslam: Diamond and Related Materials Vol. 15 (2006), p. 254
Pickles: Diamond and Related Materials Vol. 5 (1996), p. 625
Pickles: Diamond and Related Materials Vol. 5 (1996), p. 625