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Online since: May 2019
Authors: Rihendra Dantes Kadek
In addition, hemp fiber products are used as textile and paper materials.
Materials Use.
The materials used in the study are as follows: Hemp Fiber (Fig. 1).
Thermogravimetric analysis of rice husk flour for a new raw material of lignocellulosic fiber-thermoplastic polymer composites.Journal of the Korean Wood Science and Technology, 29(3), 59-67
Materials & Design, 31(6), 3002-3007. https://doi.org/10.1016/j.matdes.2010.01.022
Materials Use.
The materials used in the study are as follows: Hemp Fiber (Fig. 1).
Thermogravimetric analysis of rice husk flour for a new raw material of lignocellulosic fiber-thermoplastic polymer composites.Journal of the Korean Wood Science and Technology, 29(3), 59-67
Materials & Design, 31(6), 3002-3007. https://doi.org/10.1016/j.matdes.2010.01.022
Online since: January 2008
Authors: Junichi Matsushita, Yuki Igarashi
Fabrication of Porous β-Tricalcium Phosphate with Collagen Composite
Materials.
Yuki Igarashia and Jun-ichi Matsushitab Department of Materials Science, Tokai University 1117 Kitakaname, Hiratsuka 259-1292, Japan a 6aazm004@keyaki.cc.u-tokai.ac.jp, bjmatsu@keyaki.cc.u-tokai.ac.jp Keywords: Bioceramics, Tricalcium phosphate, Collagen Abstract.
The materials which it is done an implant, and replace it with the living body, are imposed on severe conditions such as reaction for the organization, the surface oxidation, the deterioration of materials, the fatigue damage, surface friction.
Conclusions Porous β-tricalcium phosphate with collagen composite materials fabricated to investigated its bio compatibility and bioactivity.
Journal Vol. 25 (2006), p. 138
Yuki Igarashia and Jun-ichi Matsushitab Department of Materials Science, Tokai University 1117 Kitakaname, Hiratsuka 259-1292, Japan a 6aazm004@keyaki.cc.u-tokai.ac.jp, bjmatsu@keyaki.cc.u-tokai.ac.jp Keywords: Bioceramics, Tricalcium phosphate, Collagen Abstract.
The materials which it is done an implant, and replace it with the living body, are imposed on severe conditions such as reaction for the organization, the surface oxidation, the deterioration of materials, the fatigue damage, surface friction.
Conclusions Porous β-tricalcium phosphate with collagen composite materials fabricated to investigated its bio compatibility and bioactivity.
Journal Vol. 25 (2006), p. 138
Online since: December 2007
Authors: Steven Y. Liang, Binti M. Abraham
The Johnson-Cook flow rule is used to model the yield stress of the materials [22]
Barash: Journal of Engineering for Industry, Transactions ASME, Vol.104 (1982), pp.257-264
Kannatey-Asibu: Journal of Engineering for Industry, Transactions ASME, Vol.107 (1985), pp.81-89
Liang: Journal of Manufacturing Science and Engineering, Transactions of the ASME, Vol.126 (2004), pp.98-106
Hou: International Journal of Mechanical Sciences, Vol.43 (2001), pp.57-88
Barash: Journal of Engineering for Industry, Transactions ASME, Vol.104 (1982), pp.257-264
Kannatey-Asibu: Journal of Engineering for Industry, Transactions ASME, Vol.107 (1985), pp.81-89
Liang: Journal of Manufacturing Science and Engineering, Transactions of the ASME, Vol.126 (2004), pp.98-106
Hou: International Journal of Mechanical Sciences, Vol.43 (2001), pp.57-88
Online since: May 2012
Authors: Sheng Jie Deng, Yong Feng Chen, Ce Xu, Jian Yuan Liao, Zhen Chen, Chang You Li, Feng Ying Xu
Introduction
Drying is a process with material moisture evaporating by thermal action, this process is often associated with material physical and chemical properties changes[1].
Materials and Methods Materials.
Ahrné: Journal of Food Engineering.
Ahmad: Journal of Food Engineering.
Del Nobile: Journal of Dairy Science.
Materials and Methods Materials.
Ahrné: Journal of Food Engineering.
Ahmad: Journal of Food Engineering.
Del Nobile: Journal of Dairy Science.
Online since: November 2012
Authors: Hua Hui Chen, Wan Ting Mao, Jing Jing Cao, Lei Fan
Friction and wear exist everywhere, resulting in substantial economic losses, so to improve the wear performance of materials is very necessary.
The research and application of ceramic material as friction components have received considerable attention in the field of tribology and new materials [6, 7].
Journal of Shenyang Architectural and Civil Engineering Institute (Natural Science), 17 (3) 206-209 (2001).
Development and Application of Materials, 16 (1) 11-14 (2001).
Journal of Tsinghua University (Science and technology, 39 (10) 15-17 (1999).
The research and application of ceramic material as friction components have received considerable attention in the field of tribology and new materials [6, 7].
Journal of Shenyang Architectural and Civil Engineering Institute (Natural Science), 17 (3) 206-209 (2001).
Development and Application of Materials, 16 (1) 11-14 (2001).
Journal of Tsinghua University (Science and technology, 39 (10) 15-17 (1999).
Online since: March 2011
Authors: Chedly Braham, Naziha Sidhom, Habib Sidhom, Jean Lédion
Castex, Materials Science and Technology 14 (7) (1998) pp. 631-639
[4] R.
Castex, Materials Science and Technology 19 (8) (2003) [6] N.
Sidhom, Journal of Materials Engineering and Performance 13 (5) (2004), pp. 564-574 [8] A.
Lédion, H.Sidhom, Journal of Materials Engineering and Performance 10 (5) (2001), pp. 507-514 [9] J.
Conf. on Advanced Materials and Processes, pp. 85-90.
Castex, Materials Science and Technology 19 (8) (2003) [6] N.
Sidhom, Journal of Materials Engineering and Performance 13 (5) (2004), pp. 564-574 [8] A.
Lédion, H.Sidhom, Journal of Materials Engineering and Performance 10 (5) (2001), pp. 507-514 [9] J.
Conf. on Advanced Materials and Processes, pp. 85-90.
Online since: December 2010
Authors: Ci Jun Shuai, Ying Zhou, Pei Feng
Most writing materials of this article are based on lead author, Zhou Ying’s Ph.
Hunt: Development of the twin-roll casting process, Journal of Materials Processing Technology, vol. 55(1995), p.76-84
[5] Huey-Jiuan Lin: Modelling of flow and heat transfer in metal feeding system used in twin roll casting, Modelling and Simulation in Materials Science and Engineering, 2004, 12(2), p. 255-72
Materials Transactions, vol. 43(2002), p. 206-213
Journal of Materials Processing Technology, vol. 84(1998), p. 210-224
Hunt: Development of the twin-roll casting process, Journal of Materials Processing Technology, vol. 55(1995), p.76-84
[5] Huey-Jiuan Lin: Modelling of flow and heat transfer in metal feeding system used in twin roll casting, Modelling and Simulation in Materials Science and Engineering, 2004, 12(2), p. 255-72
Materials Transactions, vol. 43(2002), p. 206-213
Journal of Materials Processing Technology, vol. 84(1998), p. 210-224
Online since: January 2012
Authors: A. Hocine, F.K. Achira, H. Ghouaouala
Table 1 present the material properties of a carbon/epoxy and the stacking sequences.
Material properties of carbón/epoxy in the UD orthotropic frame (1, 2, 3).
Materials [GPa] [GPa] [GPa] [1/°C] [1/°C] T300/5208 181 10.3 0.28 0.43 7.17 0.02x 10-6 22.5x 10-6 0.0 0.6 [MPa] [MPa] [GPa] [GPa] [GPa] 1500 40 1500 246 68 Table 2.
Bezazi, Analysis of intermetallic swelling on the behavior of a hybrid solution for compressed hydrogen storage; Part I: Analytical modeling, Materials & Design, Volume 31, Issue 5, Pages 2435-2443 (2010)
Liu, Elasto-plastic stress analysis and burst strength evaluation of Al-carbon fiber/epoxy composite cylindrical laminates, Computational Materials Science 42 (3) (2008), pp. 453–461 [8] O.
Material properties of carbón/epoxy in the UD orthotropic frame (1, 2, 3).
Materials [GPa] [GPa] [GPa] [1/°C] [1/°C] T300/5208 181 10.3 0.28 0.43 7.17 0.02x 10-6 22.5x 10-6 0.0 0.6 [MPa] [MPa] [GPa] [GPa] [GPa] 1500 40 1500 246 68 Table 2.
Bezazi, Analysis of intermetallic swelling on the behavior of a hybrid solution for compressed hydrogen storage; Part I: Analytical modeling, Materials & Design, Volume 31, Issue 5, Pages 2435-2443 (2010)
Liu, Elasto-plastic stress analysis and burst strength evaluation of Al-carbon fiber/epoxy composite cylindrical laminates, Computational Materials Science 42 (3) (2008), pp. 453–461 [8] O.
Online since: February 2007
Authors: Tibor Czigány, Z. Kocsis
The main reason is that the mechanical properties of these materials are comparable with
those of glass fiber reinforced composites.
In case of opaque polymer matrix materials the acoustic emission can complete the investigation of the debonding mechanism [11,12].
Experimental Materials.
Number of AE events in different kinds of materials In comparison to the matrix material it can be assessed that the presence of fiber reinforcement generates lots of acoustic events.
Journal of Composite Materials 38 (2004) 769-778 [16] Romhány G., Karger-Kocsis J., Czigány T.: Tensile fracture and failure behavior of thermoplastic starch with unidirectional and cross-ply flax fiber reinforcements Macromolecular Materials Engineering 288 (2003) 699-707
In case of opaque polymer matrix materials the acoustic emission can complete the investigation of the debonding mechanism [11,12].
Experimental Materials.
Number of AE events in different kinds of materials In comparison to the matrix material it can be assessed that the presence of fiber reinforcement generates lots of acoustic events.
Journal of Composite Materials 38 (2004) 769-778 [16] Romhány G., Karger-Kocsis J., Czigány T.: Tensile fracture and failure behavior of thermoplastic starch with unidirectional and cross-ply flax fiber reinforcements Macromolecular Materials Engineering 288 (2003) 699-707
Online since: December 2010
Authors: Yuri Estrin, Andrey Molotnikov, Tao Peng, Rimma Lapovok
Misiolek, Consolidation of metal powders during the extrusion process, Journal of Materials Processing Technology, 125-126 (2002)
[7] J.
Libura, Structure and properties of P/M materials formed in a new method without sintering, Advances in Powder Metallurgy, 4 (1992) 353-362
Rassolov, Nanostructured Al86Gd6Ni6Co2 bulk alloy produced by twist extrusion of amorphous melt-spun ribbons, Materials Science and Engineering A, 425:1-2 (2006) 172-177
Kim, Equal Channel Angular Pressing of Metallic Powders, Materials Science Forum: Advanced Materials Processing II, 437-438 (2003) 89-92
Biswas, Comparison of various plasticity models for metal powder compaction processes, Journal of Materials Processing Technology, 166:1 (2005) 107-115
Libura, Structure and properties of P/M materials formed in a new method without sintering, Advances in Powder Metallurgy, 4 (1992) 353-362
Rassolov, Nanostructured Al86Gd6Ni6Co2 bulk alloy produced by twist extrusion of amorphous melt-spun ribbons, Materials Science and Engineering A, 425:1-2 (2006) 172-177
Kim, Equal Channel Angular Pressing of Metallic Powders, Materials Science Forum: Advanced Materials Processing II, 437-438 (2003) 89-92
Biswas, Comparison of various plasticity models for metal powder compaction processes, Journal of Materials Processing Technology, 166:1 (2005) 107-115