Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: August 2020
Authors: Tapany Udomphol, Sakhob Khumkoa, Woranittha Kritsarikun, Natthicha Ma-ud, Natcha Wongnaree, Chatisa Kansomket
Solar Energy Materials and Solar Cells, 193 (2019), pp. 314-319
[4] M.
Solar Energy Materials & Solar Cells, 141 (2015), pp. 108-124
Solar Energy Materials & Solar Cells, 162 (2017), pp. 1-6
Solar Energy Materials and Solar Cells, 176 (2018), pp. 190–195
Solar Energy Materials and Solar Cells, 191 (2019), pp. 493-501
Solar Energy Materials & Solar Cells, 141 (2015), pp. 108-124
Solar Energy Materials & Solar Cells, 162 (2017), pp. 1-6
Solar Energy Materials and Solar Cells, 176 (2018), pp. 190–195
Solar Energy Materials and Solar Cells, 191 (2019), pp. 493-501
Online since: February 2016
Authors: Aleksandr A. Dyakonov, Aleksey V. Sopeltsev
Abrasive materials samples geometric structure analysis was based on implementing following method: obtaining sketch of each abrasive grain in three planes with further measuring grain overall dimensions, as well, as radii on grains peaks and sharpening angles with further statistical analysis of received data.
Perform abrasive material macrogeometrical parameters analysis; obtain data on grains granulometric composition. 2.
The study is performed on the basis of the following abrasive material: zirconium electrocorundum, abrasive grit 160, as main material, used for manufacturing rough grinding wheels.
Bauer, Experimental and numerical investigations of single abrasive-grain cutting, International Journal of Machine Tools and Manufacture, 51(12) (2011) 898-910
Murdasov, Research on Rolled Metal Rough Grinding Process: dissertation to apply for candidate of technical science degree.
Perform abrasive material macrogeometrical parameters analysis; obtain data on grains granulometric composition. 2.
The study is performed on the basis of the following abrasive material: zirconium electrocorundum, abrasive grit 160, as main material, used for manufacturing rough grinding wheels.
Bauer, Experimental and numerical investigations of single abrasive-grain cutting, International Journal of Machine Tools and Manufacture, 51(12) (2011) 898-910
Murdasov, Research on Rolled Metal Rough Grinding Process: dissertation to apply for candidate of technical science degree.
Online since: June 2013
Authors: Eric Ragneau, Dominique Guines, Jérémy Belchior, Lionel Leotoing
The
material is a 5086 H111 aluminum alloy.
Aertbeliën and J.R Duflou: Obtainable Accuracies and Compensation Strategies for Robot Supported SPIF (Key Engineering Materials , 410-411:679- 687, 2009)
Sol: Development of an inverse method for identification of materials parameters in the single point incremental forming process (IDDRG, 2007)
Ragneau: Experimental and numerical study on effect of forming rate on AA5086 sheet formability (Materials Science and Engineering A, 527:967--972, 2010)
Constitutive Model Covering a Large Range of Temperature (International Journal of Forming Processes, 9:167--168, 2006)
Aertbeliën and J.R Duflou: Obtainable Accuracies and Compensation Strategies for Robot Supported SPIF (Key Engineering Materials , 410-411:679- 687, 2009)
Sol: Development of an inverse method for identification of materials parameters in the single point incremental forming process (IDDRG, 2007)
Ragneau: Experimental and numerical study on effect of forming rate on AA5086 sheet formability (Materials Science and Engineering A, 527:967--972, 2010)
Constitutive Model Covering a Large Range of Temperature (International Journal of Forming Processes, 9:167--168, 2006)
Online since: June 2013
Authors: Adriana Neag, Véronique Favier, Régis Bigot, Liviu Nistor
Rheological behavior of the materials in semi-solid state, the impact of raw material characteristics and the forming process parameters have to be attentively controlled.
Thixotropic materials.
Kapranos, Thixoforming 7075 aluminium alloys, Materials Science and Engineering A 390 (2005) 3–12
Bigot, Effect of Experimental Conditions on 7075 Aluminium Response During Thixoextrusion, Key Engineering Materials Vols 504–506 (2012) 345-350
Cézard, R.Bigot, Transient and non-isothermal semi-solid behaviour: 3D micromechanical modelling, Materials Science and Engineering A 517 (2009) 8–16.
Thixotropic materials.
Kapranos, Thixoforming 7075 aluminium alloys, Materials Science and Engineering A 390 (2005) 3–12
Bigot, Effect of Experimental Conditions on 7075 Aluminium Response During Thixoextrusion, Key Engineering Materials Vols 504–506 (2012) 345-350
Cézard, R.Bigot, Transient and non-isothermal semi-solid behaviour: 3D micromechanical modelling, Materials Science and Engineering A 517 (2009) 8–16.
Online since: August 2018
Authors: Suhas Yeshwant Nayak, Srinivas Shenoy Heckadka, Navaneeth Krishna Vernekar
Materials and Methods
Materials
Glass fabric in Chopped Strand Mat (CSM) form and having areal density of 300 gsm were procured from M/s Mookambika Poly Products, Udupi, India.
[8] Y.Yamada, T.Kuwabara (Eds.), Materials for springs.
Springer Science & Business Media, Tokyo, 2007
[9] H.A.Al-Qureshi, Automobile leaf springs from composite materials, J.
[12] J.T.J.Kueh, T.Faris, Finite element analysis on the static and fatigue characteristics of composite multi-leaf spring, Journal of Zhejiang University SCIENCE A, 13 (2012)159-164
[8] Y.Yamada, T.Kuwabara (Eds.), Materials for springs.
Springer Science & Business Media, Tokyo, 2007
[9] H.A.Al-Qureshi, Automobile leaf springs from composite materials, J.
[12] J.T.J.Kueh, T.Faris, Finite element analysis on the static and fatigue characteristics of composite multi-leaf spring, Journal of Zhejiang University SCIENCE A, 13 (2012)159-164
Online since: September 2008
Authors: W.Joe Quadakkers, Lorenz Singheiser, Gerald H. Meier, J. Zurek, L. Niewolak, D. Naumenko, P. Huczkowski
Jursich, Journal of Nuclear Materials, 113, 19 (1983)
Evans, International Materials Reviews, 40 (1), 1 (1995)
Lebrun, Material Science and Engineering, A248, 44 (1998)
Antoni, Materials Research, 7, 81 (2004)
Evans, Material Science Forum, 755, 461-464 (2004)
Evans, International Materials Reviews, 40 (1), 1 (1995)
Lebrun, Material Science and Engineering, A248, 44 (1998)
Antoni, Materials Research, 7, 81 (2004)
Evans, Material Science Forum, 755, 461-464 (2004)
Online since: July 2014
Authors: Fu Gui Song, Mao Yin Shi
The soil is modeled with 3D-Solid material.
(in Chinese) [2] TSAI J S: Canadian Geotechnical Journal,3,189,1997
[3] Pengming Jiang et al: Chinese Journal of Geotechnical Engineering,21,338, 1999.
(In Chinese) [4] Shiyong Shi, Wei Zhang: Journal of Geotechnical Engineering.
(in Chinese) [5] Yonggang Xu et al: Journal of Rock Mechanics and Engineering,S2,3464, 2011.
(in Chinese) [2] TSAI J S: Canadian Geotechnical Journal,3,189,1997
[3] Pengming Jiang et al: Chinese Journal of Geotechnical Engineering,21,338, 1999.
(In Chinese) [4] Shiyong Shi, Wei Zhang: Journal of Geotechnical Engineering.
(in Chinese) [5] Yonggang Xu et al: Journal of Rock Mechanics and Engineering,S2,3464, 2011.
Online since: December 2014
Authors: Alain G. de Souza, Luiz C.G. de Souza
Journal of Energy Resources Technology, 115:134-141, 1993
Journal of Dynamic Systems, Measurement, and Control, 114:728-731, 1992
Journal of Guidance, Control and Dynamics, 16(4):636-640, 1993
Journal of Sound and vibration. 15, 3-4, 395-402
Aerospace Science and Technology (Imprimé), v. 1, p. 12-26, 2013
Journal of Dynamic Systems, Measurement, and Control, 114:728-731, 1992
Journal of Guidance, Control and Dynamics, 16(4):636-640, 1993
Journal of Sound and vibration. 15, 3-4, 395-402
Aerospace Science and Technology (Imprimé), v. 1, p. 12-26, 2013
Online since: April 2012
Authors: Bo Huang, Jin Sheng Zhang, Zhi Wang, Yan Jie Kong
Industrial Engineering Journal, 2011, 14(1): 16-22
European Journal of Operational Research, 1992, 56(1): 2-14
European Journal of Operational Research, 1992, 57(2):203-223
Beijing: China Building Material Industry Publishing House, 1999, 305-331
Industrial Engineering Journal, 2011, 14(1): 118-122.
European Journal of Operational Research, 1992, 56(1): 2-14
European Journal of Operational Research, 1992, 57(2):203-223
Beijing: China Building Material Industry Publishing House, 1999, 305-331
Industrial Engineering Journal, 2011, 14(1): 118-122.
Online since: November 2011
Authors: Xiao Hong Yang, Yong Lun Song, Guo Wei Ran, Tian Jiao Xiao
The material is isotropic.
Weldline Fig. 1 Butt-weld finite element mesh After creation of the finite element mesh, it is necessary to specify the material properties as a function of temperature.
References [1] G.N.Labeas, “Development of a local three-dimensional numerical simulation model for the laser forming process of aluminium components,” Journal of Materials Processing Technology, vol. 207, October. 2008, pp248-257, doi:10.1016/jmatprotec.2007.12.098
[3] Justin D Francis, “Welding simulations of aluminum alloy joints by finite element analysis,” America:Virginia Polytechnic Institute and State University thesis, 2002 [4] Goldak J, Chakravarti A, Bibby M, “A new finite element model for welding heat sources,” Metallurgical Transactions B, vol.15, June. 1984, pp. 299-305, doi: 10.1007/BF02667333 [5] Muhammad Zain-ul-abdein, Daniel Nélias, Jean-François Jullien and Dominique Deloison, “Experimental investigation and finite element simulation of laser beam welding induced residual stresses and distortions in thin sheets of AA 6056-T4,” Materials Science and Engineering: A, vol. 527, May. 2010, pp. 3025-3039, doi:10.1016/j.msea.2010.01.054
[6] Muhammad Zain-ul-abdein, Daniel Nélias, Jean-François Jullien and Dominique Deloison, “Prediction of laser beam welding-induced distortions and residual stresses by numerical simulation for aeronautic application,” Journal of Materials Processing Technology, vol. 209, March. 2009, pp. 2907-2917, doi:10.1016/j.jmatprotec.2008.06.051 [7] Lin Gang, Lin Huiguo, Zhao Yutao, Aluminium Application Notes, 1st ed., China Machine Press, 2006, pp. 416-423.
Weldline Fig. 1 Butt-weld finite element mesh After creation of the finite element mesh, it is necessary to specify the material properties as a function of temperature.
References [1] G.N.Labeas, “Development of a local three-dimensional numerical simulation model for the laser forming process of aluminium components,” Journal of Materials Processing Technology, vol. 207, October. 2008, pp248-257, doi:10.1016/jmatprotec.2007.12.098
[3] Justin D Francis, “Welding simulations of aluminum alloy joints by finite element analysis,” America:Virginia Polytechnic Institute and State University thesis, 2002 [4] Goldak J, Chakravarti A, Bibby M, “A new finite element model for welding heat sources,” Metallurgical Transactions B, vol.15, June. 1984, pp. 299-305, doi: 10.1007/BF02667333 [5] Muhammad Zain-ul-abdein, Daniel Nélias, Jean-François Jullien and Dominique Deloison, “Experimental investigation and finite element simulation of laser beam welding induced residual stresses and distortions in thin sheets of AA 6056-T4,” Materials Science and Engineering: A, vol. 527, May. 2010, pp. 3025-3039, doi:10.1016/j.msea.2010.01.054
[6] Muhammad Zain-ul-abdein, Daniel Nélias, Jean-François Jullien and Dominique Deloison, “Prediction of laser beam welding-induced distortions and residual stresses by numerical simulation for aeronautic application,” Journal of Materials Processing Technology, vol. 209, March. 2009, pp. 2907-2917, doi:10.1016/j.jmatprotec.2008.06.051 [7] Lin Gang, Lin Huiguo, Zhao Yutao, Aluminium Application Notes, 1st ed., China Machine Press, 2006, pp. 416-423.