Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: March 2014
Authors: Xiu Xia Liang, Yao Chen, Shuang Qiu
Traditional materials can't meet the requirements.
It is a kind of anti-corrosive new engineering material with high strength, good vibration absorbing properties and thermal stability compared with the traditional materials.
Fig. 1 3-D model of the machine center Fig. 2 Simplified 3-D model The material of the bed is resin concrete and material of the guide rail is steel, both of the materials were redefined in Workbench.
Lee: Journal of Materials Processing Technology, Vol. 48 (1995), p. 649 [3] Z.H.
Yu: Natural Science Journal of Jilin University of Technology, Vol. 31 (2001), p. 95 [4] J.C.
It is a kind of anti-corrosive new engineering material with high strength, good vibration absorbing properties and thermal stability compared with the traditional materials.
Fig. 1 3-D model of the machine center Fig. 2 Simplified 3-D model The material of the bed is resin concrete and material of the guide rail is steel, both of the materials were redefined in Workbench.
Lee: Journal of Materials Processing Technology, Vol. 48 (1995), p. 649 [3] Z.H.
Yu: Natural Science Journal of Jilin University of Technology, Vol. 31 (2001), p. 95 [4] J.C.
Online since: April 2021
Authors: Togar Saragi, Risdiana Risdiana, Tony Kristiantoro, Trie Joko Satrio Wibowo, Supono A. Dwiwanto
Journal of Materials Science Materials in Electronics 28, 12 (2017)
Journal of Materials Science Materials in Electronics 28, 2377–2384 (2017)
Journal of Magnetism and Magnetic Materials 62 (1986) 57-67
Materials Science (Medžiagotyra), 17(3), 302-307 (2011)
Materials Science Forum, 827, 219–222 (2015)
Journal of Materials Science Materials in Electronics 28, 2377–2384 (2017)
Journal of Magnetism and Magnetic Materials 62 (1986) 57-67
Materials Science (Medžiagotyra), 17(3), 302-307 (2011)
Materials Science Forum, 827, 219–222 (2015)
Online since: August 2015
Authors: K. Mayilsamy, G. Murali, B.Mubarak Ali
LHS system use the energy absorbed or released during the isothermal phase change of materials.
Yang, Y.H.Wang, Numerical simulation of three-dimensional transient cooling application on a portable electronic device using phase change material, International Journal of Thermal Sciences. 51 (2012) 155-162
Journal of Therm.
Sciences. 49(2010) 109–117
Naterer, Heat transfer in phase change materials for thermal management of electric vehicle battery modules, International Journal of Heat and Mass Transfer. 53 (2010) 5176–5182
Yang, Y.H.Wang, Numerical simulation of three-dimensional transient cooling application on a portable electronic device using phase change material, International Journal of Thermal Sciences. 51 (2012) 155-162
Journal of Therm.
Sciences. 49(2010) 109–117
Naterer, Heat transfer in phase change materials for thermal management of electric vehicle battery modules, International Journal of Heat and Mass Transfer. 53 (2010) 5176–5182
Online since: March 2011
Authors: F.F. Wang, Li Li, Zong Wei Niu
Hence, there should be an optimal static load in the machining system for NdFeB materials.
Acknowledgements This project was founded by Natural Science Foundation of Shandong Province(ZR2009FQ030) References [1] H.
Lin: Journal of Research On Metal Materials Vol. 15(3) (1994), p. 70 [2] R.H.J.
Fastenau, E.J.Van Loenen: Journal of Magnetism and Magnetic Materials.
Schreiber: Journal of Materials Processing Technology Vol. 51 (1995), p. 358 [5] Z.J.Pei, P.M.Ferreira, M.H.aselkorn: Journal of Materials Processing Technology Vol. 48(1995), p. 771
Acknowledgements This project was founded by Natural Science Foundation of Shandong Province(ZR2009FQ030) References [1] H.
Lin: Journal of Research On Metal Materials Vol. 15(3) (1994), p. 70 [2] R.H.J.
Fastenau, E.J.Van Loenen: Journal of Magnetism and Magnetic Materials.
Schreiber: Journal of Materials Processing Technology Vol. 51 (1995), p. 358 [5] Z.J.Pei, P.M.Ferreira, M.H.aselkorn: Journal of Materials Processing Technology Vol. 48(1995), p. 771
Online since: May 2012
Authors: Xiang Dong Zhang, Bao Rong Huo
Introduction
BFRP bar is made of multi-strand resin matrix material combined CBFS, via extruding and drawing, extrusion molding processes begin from the raw material, and then after soakage, pressing dies, curing, cutting, etc, and finally being a new composite material.
Using the opressive sleeve anchor developed by the researchers,tensile tests of BFRP bars are carried out [12].In test, let it cover the BFRP bars’ in end.Tensile test was done in building materials laboratory of Liaoning Technical University electric-fluid servo compression machines.It is shown in Fig.1.
From the above curve, its tension - deformation after peak intensity, similar to vertical drop.It is different from the steel which exist obviousyield stage.So BFRP bars belong to brittle materials.
[12] Teng J G,Lam L,Chan W,et al.Retrofitting of deficient RC cantilever slabs using GFRP strips [J].Journal of Composite for Construction,2000,4(2):75-84
[15] Wu Y F,Huang Y.Hybrid bonding to reinforced concrete structure[J].Journal of Composite for Construction,2008,12(3):266-273
Using the opressive sleeve anchor developed by the researchers,tensile tests of BFRP bars are carried out [12].In test, let it cover the BFRP bars’ in end.Tensile test was done in building materials laboratory of Liaoning Technical University electric-fluid servo compression machines.It is shown in Fig.1.
From the above curve, its tension - deformation after peak intensity, similar to vertical drop.It is different from the steel which exist obviousyield stage.So BFRP bars belong to brittle materials.
[12] Teng J G,Lam L,Chan W,et al.Retrofitting of deficient RC cantilever slabs using GFRP strips [J].Journal of Composite for Construction,2000,4(2):75-84
[15] Wu Y F,Huang Y.Hybrid bonding to reinforced concrete structure[J].Journal of Composite for Construction,2008,12(3):266-273
Online since: October 2013
Authors: Chuang Zhu, Xiao Min Cheng, Han Zhang, Xian Jie Yang
Therefore, other materials are necessary to store heat, like concrete, ceramics or some phase change material.
Cao, et al., Molten Salts for Nuclear Cogeneration, in: Fox K, Hoffman E, Manjooran N, Pickrell G, Advances in Materials Science for Environmental and Nuclear Technology, 2010, pp. 145-156
Sridharan, et al., Materials corrosion in molten LiF-NaF-KF salt, Journal of Fluorine Chemistry. 130 (2009) 67-73
Selvaduray, Lead-free solders in microelectronics, Materials Science & Engineering R-Reports. 27 (2000) 95-141
Schumacher, et al., Effect of oxygen concentration and temperature on compatibility of ODS steel with liquid, Stagnant Pb45Bi55, Journal of Nuclear Materials. 335 (2004) 189-193
Cao, et al., Molten Salts for Nuclear Cogeneration, in: Fox K, Hoffman E, Manjooran N, Pickrell G, Advances in Materials Science for Environmental and Nuclear Technology, 2010, pp. 145-156
Sridharan, et al., Materials corrosion in molten LiF-NaF-KF salt, Journal of Fluorine Chemistry. 130 (2009) 67-73
Selvaduray, Lead-free solders in microelectronics, Materials Science & Engineering R-Reports. 27 (2000) 95-141
Schumacher, et al., Effect of oxygen concentration and temperature on compatibility of ODS steel with liquid, Stagnant Pb45Bi55, Journal of Nuclear Materials. 335 (2004) 189-193
Online since: August 2010
Authors: Jian Yi Kong, Gong Fa Li, Guo Zhang Jiang, Gang Zhao, Liang Xi Xie
At present, the
main materials used in electromechanical products are steel, iron and alloy steel.
These materials can be recycled.
However, there are some new developing materials, for instance engineering plastics, glass fiber reinforced plastic and some nonmetallic materials, etc., They are difficult to decompose or are harmful to the environment.
Green product design requires developments in material science.
When the raw materials for electromechancial products are produced, various kinds of waste materials including gases, solids and liquids are generated.
These materials can be recycled.
However, there are some new developing materials, for instance engineering plastics, glass fiber reinforced plastic and some nonmetallic materials, etc., They are difficult to decompose or are harmful to the environment.
Green product design requires developments in material science.
When the raw materials for electromechancial products are produced, various kinds of waste materials including gases, solids and liquids are generated.
Characterization of Composite Films from Taro Starch Modified with the Addition of Duck Bone Gelatin
Online since: February 2024
Authors: Trias Ayu Ayu Laksanawati, Muhammad Habbib Khirzin, Maghfirotul Amaniyah, Karina Meidayanti
Introduction
Composite film is a thin layer made of a combination of two or more materials that make up new material.
The combination of these materials in the film matrix complements each other and covers the weaknesses of each material characteristic.
Experimental Materials The materials are taro tubers (Rogojampi traditional market, Banyuwangi, Indonesia), duck bones (duck bone waste obtained from food scraps), sodium hydroxide (NaOH, analytical grade, Merck KGaA, Darmstadt, Germany), aqHydrochloric Acid (HCl, analytical grade, PT.
Journal of Food Science and Technology. (2020)
Journal of Applied Polymer Science. 135(19) 1–9. (2018) [7] Laksanawati, T.A., Khirzin, M.
The combination of these materials in the film matrix complements each other and covers the weaknesses of each material characteristic.
Experimental Materials The materials are taro tubers (Rogojampi traditional market, Banyuwangi, Indonesia), duck bones (duck bone waste obtained from food scraps), sodium hydroxide (NaOH, analytical grade, Merck KGaA, Darmstadt, Germany), aqHydrochloric Acid (HCl, analytical grade, PT.
Journal of Food Science and Technology. (2020)
Journal of Applied Polymer Science. 135(19) 1–9. (2018) [7] Laksanawati, T.A., Khirzin, M.
Online since: July 2022
Authors: Thawin Hart-Rawung, Markus Bambach, Sebastian Härtel, Johannes Buhl
Journal of Materials Processing Technology 2010;210:2103–18, doi:10.1016/j.jmatprotec.2010.07.019
Journal of Materials Processing Technology 2016;228:11–24, doi:10.1016/j.jmatprotec.2015.09.023
Journal of Materials Processing Technology 2016;228:59–67, doi:10.1016/j.jmatprotec.2015.01.003
Computer Methods in Materials Science 2017
Materials Science and Technology 2013;1:798–804, doi:10.1179/mst.1985.1.10.798
Journal of Materials Processing Technology 2016;228:11–24, doi:10.1016/j.jmatprotec.2015.09.023
Journal of Materials Processing Technology 2016;228:59–67, doi:10.1016/j.jmatprotec.2015.01.003
Computer Methods in Materials Science 2017
Materials Science and Technology 2013;1:798–804, doi:10.1179/mst.1985.1.10.798
Online since: March 2010
Authors: Ming Zhou, Peng Jia, Min Li
Diamond cutting is a
promising alternative to grinding and polishing techniques for fabricating high quality surfaces on
brittle materials as a well-defined single point tool is more predictable than a multi-point grinding
wheel [1-3].
Journal Series C, Vol. 47 (1) (2004), pp.29
Scattergood: Journal of Precision Engineering, Vol. 13 (2) (1991), pp.95
Lee: Sadhana-Academy Proceedings in Engineering Sciences, Vol. 28 (5) (2003), pp.945
Ngoi: Journal of Materials Processing Technology, Vol. 121 (2-3) (2002), pp.250
Journal Series C, Vol. 47 (1) (2004), pp.29
Scattergood: Journal of Precision Engineering, Vol. 13 (2) (1991), pp.95
Lee: Sadhana-Academy Proceedings in Engineering Sciences, Vol. 28 (5) (2003), pp.945
Ngoi: Journal of Materials Processing Technology, Vol. 121 (2-3) (2002), pp.250