Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: February 2018
Authors: Jin Huan Xia, Wei Hong Li, Yong Wang, Kai Ming Cheng, Ji Xue Zhou
Materials Science and Engineering A. (2016) 84-92
Materials Science and Technology. 31(9) (2015) 1122-1131
Materials Science & Technology. (2016)
Materials Science & Engineering A. 656 (2016) 102-110
Materials Science and Engineering A. (2013) 36-40.
Materials Science and Technology. 31(9) (2015) 1122-1131
Materials Science & Technology. (2016)
Materials Science & Engineering A. 656 (2016) 102-110
Materials Science and Engineering A. (2013) 36-40.
Online since: October 2024
Authors: Cristian-Vladimir Besalic, Alexandru Nicolae Luca, Rodica Bădărău, Cristan Ghera, Gabriela-Victoria Mnerie, Lia-Nicoleta Botila
Aluminium alloys are being used more often as a result of industry demands for strong, lightweight materials.
The results of these tests help determine how resistant a material is to cavitation and direct the development of materials for use in cavitation-prone environments.
References [1] Smith, J., Friction Stir Welding Techniques in Aluminum Alloys, International Journal of Materials Engineering, 12 (3) (2018) 45-58
[2] Johnson, A., & Williams, B., Microstructural Analysis of EN AW 1200 Aluminum Alloy Joints, Journal of Materials Science, 25(4) (2019) 312-327
[3] Rodriguez, C., et al., Cavitation Erosion: Mechanisms and Material Behavior, Materials Research Bulletin, 38(2) (2020) 201-215
The results of these tests help determine how resistant a material is to cavitation and direct the development of materials for use in cavitation-prone environments.
References [1] Smith, J., Friction Stir Welding Techniques in Aluminum Alloys, International Journal of Materials Engineering, 12 (3) (2018) 45-58
[2] Johnson, A., & Williams, B., Microstructural Analysis of EN AW 1200 Aluminum Alloy Joints, Journal of Materials Science, 25(4) (2019) 312-327
[3] Rodriguez, C., et al., Cavitation Erosion: Mechanisms and Material Behavior, Materials Research Bulletin, 38(2) (2020) 201-215
Online since: June 2022
Authors: Ali H. Jawab Al Taie, Siti Norasmah Surip, N.A.A Nor Azam
The materials may be from organic materials or made materials.
During the process of polymeric materials degradation, oxygen diffusion occurs prevalently in the unstructured regions.
Furthermore, some research is needed on the economy, performance, and efficiency of materials built from face masks’ waste.
Indian Journal of Biotechnology, 7(1), 9–22
Journal of Cleaner Production, 277, 123227
During the process of polymeric materials degradation, oxygen diffusion occurs prevalently in the unstructured regions.
Furthermore, some research is needed on the economy, performance, and efficiency of materials built from face masks’ waste.
Indian Journal of Biotechnology, 7(1), 9–22
Journal of Cleaner Production, 277, 123227
Online since: October 2007
Authors: Wei Dong Xie, Xiao Dong Peng, Yu Lan Li
Materials and Experimental Procedure
The materials used for the test samples are: 2024 Al alloys, 6061 Al alloy, 7075 Al alloy, respectively.
Tensile strength of the materials was determined using flat plate samples.
J., Characteristics of Materials Surfaces Modified Using Plasma-Enhanced Ion Beams, [accepted to publish [2] In Journal of Materials Science and Engineering, 1997] [3] Microstructure of Irradiated Materials, ed.
W. and Yatsui K., Intense Ion-Beam Treatment of Materials, MRS Bulletin, Aug.1996.
Y., Material Surface Modification by Pulsed Ion Beam, Journal of Materials Science, July 1990, vol.25 (No.7): 3139-3141 [9] Mccafferty E., Natishan P.M. and Hubler G.K.
Tensile strength of the materials was determined using flat plate samples.
J., Characteristics of Materials Surfaces Modified Using Plasma-Enhanced Ion Beams, [accepted to publish [2] In Journal of Materials Science and Engineering, 1997] [3] Microstructure of Irradiated Materials, ed.
W. and Yatsui K., Intense Ion-Beam Treatment of Materials, MRS Bulletin, Aug.1996.
Y., Material Surface Modification by Pulsed Ion Beam, Journal of Materials Science, July 1990, vol.25 (No.7): 3139-3141 [9] Mccafferty E., Natishan P.M. and Hubler G.K.
Online since: April 2013
Authors: Yu Can Fu, Yan Chen, You Hong Gong, Ni Hong Yang, Shu Han, Sheng Chao Han
Milling is the most practical machining operation for removing excess material.
Introduction With the development of fabrication of advanced materials, Carbon Fiber Reinforced Plastics (CFRP) has been used extensively in many industries due to its superior specific strength and high temperature resistance, high corrosion resistance and good thermal shock resistance [1-3].
However, due to the inhomogeneous and anisotropic material properties machining of CFRP comes along with certain difficulties like fiber pull-out, delamination and decomposition of matrix material which leads to a degradation of the surface quality and the material properties [4].
Rentsch: CIRP Annals – Manufacturing Technology, Vol. 60 (2011), p. 57 [2] C-S Chang: Journal of Materials Processing Technology, Vol. 180 (2006), p. 117 [3] R.Teti: CIRP Annals –Manufacturing Technology Vol. 51 (2002), p. 611 [4] K.S.
Namgung: Journal of Materials Processing Technology Vol. 32 (1992), p. 553 [5] H.
Introduction With the development of fabrication of advanced materials, Carbon Fiber Reinforced Plastics (CFRP) has been used extensively in many industries due to its superior specific strength and high temperature resistance, high corrosion resistance and good thermal shock resistance [1-3].
However, due to the inhomogeneous and anisotropic material properties machining of CFRP comes along with certain difficulties like fiber pull-out, delamination and decomposition of matrix material which leads to a degradation of the surface quality and the material properties [4].
Rentsch: CIRP Annals – Manufacturing Technology, Vol. 60 (2011), p. 57 [2] C-S Chang: Journal of Materials Processing Technology, Vol. 180 (2006), p. 117 [3] R.Teti: CIRP Annals –Manufacturing Technology Vol. 51 (2002), p. 611 [4] K.S.
Namgung: Journal of Materials Processing Technology Vol. 32 (1992), p. 553 [5] H.
Online since: July 2011
Authors: Yu Wang, Yong Yao, Bin Cheng, Lin Wang
Before 1990s, the self-built house in the village used the masonry, wood as the building materials.
Meanwhile, both the roof and wallboard used the lightweight materials, so the earthquake resistant behaviour was very good.
The infilled frame structures was compose of all sorts of sintered concrete block, light wall materials etc.
Because the structural measure of wall materials and beam and column were imperfection, the earthquake damage was serious.
Journal of Dalian University of Technology, 2009,49(5):718-723
Meanwhile, both the roof and wallboard used the lightweight materials, so the earthquake resistant behaviour was very good.
The infilled frame structures was compose of all sorts of sintered concrete block, light wall materials etc.
Because the structural measure of wall materials and beam and column were imperfection, the earthquake damage was serious.
Journal of Dalian University of Technology, 2009,49(5):718-723
Online since: May 2014
Authors: Rong Shan Qin, Tansel T. Arif
The phase-field method is rapidly becoming the method of choice for simulating the evolution of solid state phase transformations in materials science.
Karma, Phase-Field Simulation of Solidification 1, Annual Review of Materials Research 32(2002) 163–194
Qin, A phase-field model for bainitic transformation, Computational Materials Science 77(2013) 230–235
Ågren, A regular solution model for phases with several components and sublattices, suitable for computer applications, Journal of physics and chemistry of solids 42(1981) 297-301.
Karma, Phase-Field Simulation of Solidification 1, Annual Review of Materials Research 32(2002) 163–194
Qin, A phase-field model for bainitic transformation, Computational Materials Science 77(2013) 230–235
Ågren, A regular solution model for phases with several components and sublattices, suitable for computer applications, Journal of physics and chemistry of solids 42(1981) 297-301.
Online since: March 2008
Authors: C.Y. Liu, L.Y. Yu, W. Tian, J.C. Tang
To the
E class steel, typical coupler metal, the related laser process variables and materials were test and
optimized.
So, given certain material and work piece, follow the theories analysis, laser surface process variables were tested to get exact and valid processing and materials.
Mukherjee: Journal of Materials Science Vol. 33 (1998) p. 1287 [5] F.
Key Engineering Materials Vol. 218-220 (2002) p. 187 [6] D.
Singh: Journal of Materials Science Vol. 33 (1998) p. 3677 50µm
So, given certain material and work piece, follow the theories analysis, laser surface process variables were tested to get exact and valid processing and materials.
Mukherjee: Journal of Materials Science Vol. 33 (1998) p. 1287 [5] F.
Key Engineering Materials Vol. 218-220 (2002) p. 187 [6] D.
Singh: Journal of Materials Science Vol. 33 (1998) p. 3677 50µm
Online since: June 2013
Authors: Hai Tang Cen, Xiao Liang Wang, Zhi Yong Hu
The glass fiber reinforced thermosetting composite material with high specific strength has become the main current blade manufacturing materials.
Wind turbine blade materials require high fatigue life, impact resistance, and can withstand the harsh environment field.
Journal of Solar Energy Engineering, 2005,127: 570-580 [5] First recyclable wind blade to be developed.
Proceedings of the 27th Risø International Symposium on Materials Science: Polymer Composite Materials for Wind Power Turbines.
Journal of Beijing University of Aeronautics and Astronautics, 2012,3
Wind turbine blade materials require high fatigue life, impact resistance, and can withstand the harsh environment field.
Journal of Solar Energy Engineering, 2005,127: 570-580 [5] First recyclable wind blade to be developed.
Proceedings of the 27th Risø International Symposium on Materials Science: Polymer Composite Materials for Wind Power Turbines.
Journal of Beijing University of Aeronautics and Astronautics, 2012,3
Online since: June 2017
Authors: Xiang Long Meng, Wen Long Song, Jun Li, Xiao Yang Yi, Wei Hong Gao
Progress in Materials Science, 50 (2005): 511-678
Materials Letters, 57 (2002): 452-456
Materials Science and Engineering.A, (2006): 666–670
Journal of Engineering Materials & Technology, 55 (2010): 257-315
Materials Science & Technology, 30 (2014): 1530-1544
Materials Letters, 57 (2002): 452-456
Materials Science and Engineering.A, (2006): 666–670
Journal of Engineering Materials & Technology, 55 (2010): 257-315
Materials Science & Technology, 30 (2014): 1530-1544