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Online since: January 2011
Authors: M.A. Khattak, M.A. Khan, Mohd Nasir Tamin
Materials and Experimental Procedures
The material employed in this study is an ASTM A516-Grade 70 steel.
Xi: Material science and engineering A, Vol. 486 (2008), p. 433 [4] R.
Tobe: American Society for Testing Materials (ASTM), edited by G.S.
Journal Engineering Materials Technology, Vol. 102 (1980), p. 369 [20] A.
Das: Journal of material processing technology, Vol. 173 (2006), p. 1
Xi: Material science and engineering A, Vol. 486 (2008), p. 433 [4] R.
Tobe: American Society for Testing Materials (ASTM), edited by G.S.
Journal Engineering Materials Technology, Vol. 102 (1980), p. 369 [20] A.
Das: Journal of material processing technology, Vol. 173 (2006), p. 1
Online since: September 2011
Authors: Si Hai Zhao, Tie Nan Luo
Journal of Magnetism and Magnetic Materials, v258-259(2003)456-458
[3] Furst Eric M, Gast Alice P.
Reversible ordered agglomeration of hematite particles due to weak magnetic interactions, Journal of Colloid and Interface Science. 1986, Vol. 113, No.1 76-80
Smart Materials and Structures, v 11, n 1,(2002):140-146 [11] Tang Xinlu, Conrad Hans.
Journal of Magnetism and Materials, v252(2002):224-228 [14] Felt D W (California State Univ), Hagenbuchle M, Liu J, et.
Journal of Magnetism and Magnetic Materials, v122,n1-3(1993):51-52
Reversible ordered agglomeration of hematite particles due to weak magnetic interactions, Journal of Colloid and Interface Science. 1986, Vol. 113, No.1 76-80
Smart Materials and Structures, v 11, n 1,(2002):140-146 [11] Tang Xinlu, Conrad Hans.
Journal of Magnetism and Materials, v252(2002):224-228 [14] Felt D W (California State Univ), Hagenbuchle M, Liu J, et.
Journal of Magnetism and Magnetic Materials, v122,n1-3(1993):51-52
Online since: June 2013
Authors: Miguel A.B.E. Martins, Ricardo J. Alves de Sousa, João B.S. Farias, Sonia R.H. Marabuto, Jorge A. Ferreira, Daniel Gil Afonso
A brief discussion, Key Engineering Materials. 473 (2011) 861-868
VanHerck, Force Measurements for Single Point Incremental Forming and experimental study, Journal of Advanced Materials Research. 6-8 (2005) 441 – 448
Park, The formability of aluminum sheet in incremental forming, Journal of Materials Processing Technology. 113 (2001) 654-658
Micari, Influence of mechanical properties of the sheet material on formability in single point incremental forming, Journal of Materials Processing Technology. 53–154 (2004) 501-507
Attanas, Experimental and simulative results in sheet incremental forming on CNC machines, Journal of Materials Processing Technology. 152 (2004) 176–184
VanHerck, Force Measurements for Single Point Incremental Forming and experimental study, Journal of Advanced Materials Research. 6-8 (2005) 441 – 448
Park, The formability of aluminum sheet in incremental forming, Journal of Materials Processing Technology. 113 (2001) 654-658
Micari, Influence of mechanical properties of the sheet material on formability in single point incremental forming, Journal of Materials Processing Technology. 53–154 (2004) 501-507
Attanas, Experimental and simulative results in sheet incremental forming on CNC machines, Journal of Materials Processing Technology. 152 (2004) 176–184
Online since: November 2020
Authors: Merdaci Slimane, Adda Hadj Mostefa, Sabrina Boutaleb, Hadjira Hellal
"Functionally Graded Materials Design".
"Cellular and Porous Materials", WILEY-VCH, 398-417, (2008)
[23] Daneshmehr .A, Rajabpoor .A, Hadi .A, Size dependent free vibration analysis of nanoplates made of functionally graded materials based on nonlocal elasticity theory with high order theories, International Journal of Engineering Science, Vol. 95, pp. 23-35, (2015)
Rabczuk, “Size-dependent free flexural vibration behavior of functionally graded nanoplates”, Computational Materials Science, Vol. 65, 74-80, (2012)
Rajabpoor, “Free vibration analysis of nanoplates made of functionally graded materials based on nonlocal elasticity theory using finite element method”, Journal of Computational Applied Mechanics,49(1), pp 86-101,(2018)
"Cellular and Porous Materials", WILEY-VCH, 398-417, (2008)
[23] Daneshmehr .A, Rajabpoor .A, Hadi .A, Size dependent free vibration analysis of nanoplates made of functionally graded materials based on nonlocal elasticity theory with high order theories, International Journal of Engineering Science, Vol. 95, pp. 23-35, (2015)
Rabczuk, “Size-dependent free flexural vibration behavior of functionally graded nanoplates”, Computational Materials Science, Vol. 65, 74-80, (2012)
Rajabpoor, “Free vibration analysis of nanoplates made of functionally graded materials based on nonlocal elasticity theory using finite element method”, Journal of Computational Applied Mechanics,49(1), pp 86-101,(2018)
Online since: January 2011
Authors: Da Li Ma, Qian Li
Current archaeological research, collections, traditional workmanship resumption and exploitation, and activities with cross-cultural influence conducted by culture and science/technology institutions are also taken into consideration.
As the raw material of boulting cloth, it was discovered accidentally.
Silk’s beauty is not only shown in its materials, but also in its techniques.
In most cases, silk is only a kind of materials.
(Journal of Huzhou Teachers College, 1994, (4): p. 68)
As the raw material of boulting cloth, it was discovered accidentally.
Silk’s beauty is not only shown in its materials, but also in its techniques.
In most cases, silk is only a kind of materials.
(Journal of Huzhou Teachers College, 1994, (4): p. 68)
Online since: February 2022
Authors: Fan Zhu, Lei Zhang, Yu Feng Wang, Zi Min Fan
Research Progress in Thermal Conductivity of Polymer Matrix Composites
Zhu Fan1,a, Fan Zimin1,b*, Zhang Lei1,c and Wang Yufeng1,d
1School of Materials Science and Engineering, Xi’an University of Science and Technology, Xi’an, 710054, China
a3202540061@qq.com, bfanzm1212@xust.edu.cn, czhanglei5954@163.com, d670310618@qq.com
Keywords: polymer-based thermal conductive material; thermal conductivity mechanism; thermal conductivity factor
Abstract.
Traditional thermal conductivity materials include metal, inorganic and carbon materials.
Metal materials are poor in chemical corrosion resistance and insulation performance, inorganic materials have higher processing costs, and carbon materials have poor mechanical properties.
Zhou, Thermal Conductive Polymer Materials[M], National Defense Industry Press, 2014, pp. 256-257. ], and only composite materials with high thermal conductivity fillers (such as CNTs, GNSs, etc.) exist.
The higher the thermal conductivity of fillers, the stronger the thermal conductivity of the composite materials.
Traditional thermal conductivity materials include metal, inorganic and carbon materials.
Metal materials are poor in chemical corrosion resistance and insulation performance, inorganic materials have higher processing costs, and carbon materials have poor mechanical properties.
Zhou, Thermal Conductive Polymer Materials[M], National Defense Industry Press, 2014, pp. 256-257. ], and only composite materials with high thermal conductivity fillers (such as CNTs, GNSs, etc.) exist.
The higher the thermal conductivity of fillers, the stronger the thermal conductivity of the composite materials.
Online since: September 2011
Authors: Carmelo Clienti, Giacomo Risitano
Introduction
In previous work, the authors, proposed a methodology to find the fatigue limit of the materials by means of a thermo-analysis of the specimen surface during a classic mono-axial traction test.
With the possibility to read the surface temperature of specimen during tests by infrared image processing, many authors worked to use the thermoplastic effect to define mechanical characteristics of materials.
Louche, in: An infrared image processing to analyse the calorific effects accompanying strain localisation, International Journal of Engineering Science 38 (2000), pp. 1759-1788
Risitano, in: Determination of fatigue limit by mono-axial tensile specimens using thermal analysis, Key Engineering Materials Vol. 452-453 (2011)
Risitano, in: Thermographic methodology for rapid determination of the fatigue limit of materials and mechanical components, Int.
With the possibility to read the surface temperature of specimen during tests by infrared image processing, many authors worked to use the thermoplastic effect to define mechanical characteristics of materials.
Louche, in: An infrared image processing to analyse the calorific effects accompanying strain localisation, International Journal of Engineering Science 38 (2000), pp. 1759-1788
Risitano, in: Determination of fatigue limit by mono-axial tensile specimens using thermal analysis, Key Engineering Materials Vol. 452-453 (2011)
Risitano, in: Thermographic methodology for rapid determination of the fatigue limit of materials and mechanical components, Int.
Online since: February 2012
Authors: Xiao Hu Yao, Xiao Qing Zhang, Xuan Liu
The damage in these structures with composite materials under low and medium speed impact is a very complex process.
The wing leading edge consists of skin, ribs and reinforcement, and all of them are made from carbon fiber reinforced composite materials CFRP.
Langseth: International Journal of Impact Engineering Vol. 32 (2006), p1127
International Journal of Impact Engineering Vol. 31 (2005), p929
Tong: Mechanical Science and Technology for Aerospace Engineering Vol.27(11), 2008, p. 1311.
The wing leading edge consists of skin, ribs and reinforcement, and all of them are made from carbon fiber reinforced composite materials CFRP.
Langseth: International Journal of Impact Engineering Vol. 32 (2006), p1127
International Journal of Impact Engineering Vol. 31 (2005), p929
Tong: Mechanical Science and Technology for Aerospace Engineering Vol.27(11), 2008, p. 1311.
Online since: August 2015
Authors: A.K. Lakshminarayanan, V.G. Vijay Prakaash, A. Vignesh
In recent years, friction stir processing is emerged as surface engineering technology, which can modify the surface of materials by severe plastic deformation.
Enayati, The effect of grain size and martensitic transformation on the wear behavior of AISI 304L stainless steel, Materials and Design. 64 (2014) 56–62
Arora, Friction Stir Processing of Mild Steel to Enhance its Surface Hardness, Advanced Materials Research. 620 (2013) 117-121
Katoh, Banded structure and its distribution in friction stir processing of 316L austenitic stainless steel, Journal of Nuclear Materials. 420 (2012) 497–500
Hunn, Plastic deformation in 316LN stainless steel characterization of deformation microstructures, Journal of Nuclear Materials. 321 (2003) 29–39.
Enayati, The effect of grain size and martensitic transformation on the wear behavior of AISI 304L stainless steel, Materials and Design. 64 (2014) 56–62
Arora, Friction Stir Processing of Mild Steel to Enhance its Surface Hardness, Advanced Materials Research. 620 (2013) 117-121
Katoh, Banded structure and its distribution in friction stir processing of 316L austenitic stainless steel, Journal of Nuclear Materials. 420 (2012) 497–500
Hunn, Plastic deformation in 316LN stainless steel characterization of deformation microstructures, Journal of Nuclear Materials. 321 (2003) 29–39.
Online since: January 2010
Authors: Pakorn Opaprakasit, Mantana Opaprakasit, Atitsa Petchsuk, N. Chanunpanich, C. Thammawong, Pramuan Tangboriboonrat
The materials show many interesting characteristics, i.e., very large
surface area to volume ratio, flexibility, and superior mechanical performance (e.g. stiffness and
tensile strength), compared to traditional materials.
This also leads to differences in mechanical properties of the materials.
Experimental Materials All copolymers samples were synthesized by ring-opening polymerization of lactide using stannous(II) octoate as catalyst [3].
Chronakis: Journal of Materials Processing Technology 167 (2005) 283-293 [3] S.
Buchatip, A Petchsuk, and K Kongsuwan: Journal of Metals, Materials and Minerals.
This also leads to differences in mechanical properties of the materials.
Experimental Materials All copolymers samples were synthesized by ring-opening polymerization of lactide using stannous(II) octoate as catalyst [3].
Chronakis: Journal of Materials Processing Technology 167 (2005) 283-293 [3] S.
Buchatip, A Petchsuk, and K Kongsuwan: Journal of Metals, Materials and Minerals.