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Online since: November 2022
Authors: Santosh Mani, Samriti Khosla, Madhavi Pradhan, Pushpendra Rai, Pradip Sarawade
These materials consist of liquid crystal in which micron size droplets of polymer is dispersed.
Proceedings of Fourth International Conference on Inventive Material Science Applications.
Journal of Materials Science 56.34 (2021): 18795-18836. https://doi.org/10.1007/s10853-021-06489-7 [38] Mhatre, Manoj M., Anuja Katariya-Jain, and Rajendra R.
ACS Applied Polymer Materials (2021).
Journal of Materials Chemistry 5.12 (1995): 2063-2072. https://doi.org/10.1039/JM9950502063
Proceedings of Fourth International Conference on Inventive Material Science Applications.
Journal of Materials Science 56.34 (2021): 18795-18836. https://doi.org/10.1007/s10853-021-06489-7 [38] Mhatre, Manoj M., Anuja Katariya-Jain, and Rajendra R.
ACS Applied Polymer Materials (2021).
Journal of Materials Chemistry 5.12 (1995): 2063-2072. https://doi.org/10.1039/JM9950502063
Online since: November 2012
Authors: Viton Uthaisangsuk, Wishsanuruk Wechsatol, Cha Yun Kimyong, Sontipee Aimmanee
Fiber-reinforced composite materials (FRC) are used in a wide range of applications, since FRC exhibits higher strength-to-density ratio in comparison to traditional materials due to long fibers embedded in a matrix material.
At this level, the fiber and epoxy are assumed to be isotropic and brittle materials.
M., 1971, “A General Theory of Strength for Anisotropic Materials,” J.
International Journal of Rock Mechanics and Mining Sciences, Vol.27, pp. 227-229
[7] Boming Zhang., Zhong Yang., Xinyang Sun and Zhanwen Tang, “A virtual experimental approach to estimate composite mechanical properties: Modeling with an explicit finite element method”, Composite Materials Science, 2010, vol.49, pp. 645-651
At this level, the fiber and epoxy are assumed to be isotropic and brittle materials.
M., 1971, “A General Theory of Strength for Anisotropic Materials,” J.
International Journal of Rock Mechanics and Mining Sciences, Vol.27, pp. 227-229
[7] Boming Zhang., Zhong Yang., Xinyang Sun and Zhanwen Tang, “A virtual experimental approach to estimate composite mechanical properties: Modeling with an explicit finite element method”, Composite Materials Science, 2010, vol.49, pp. 645-651
Online since: April 2021
Authors: Zi Yuan Song
A, Deformation microstructures after low-cycle fatigue in a fourth-generation Ni-base SC superalloy TMS-138," Materials Science and Engineering: A. 381 (2004) 20-27
Décampsb, Low cycle fatigue of a nickel based superalloy at high temperature: deformation microstructures, Materials Science and Engineering: A. 316, no. 1-2, (2001) 18-31
A, Time-incremental creep–fatigue damage rule for single crystal Ni-base superalloys, Materials Science & Engineering A. 508 (2009). 200-208
A, Low-cycle fatigue of single crystal nickel-based superalloy – mechanical testing and TEM characterisation, Materials Science and Engineering: A. 744 (2019) 538-547
Hu, Thermo-mechanical fatigue behavior of a single crystal nickel-based superalloy, Materials Science and Engineering: A. 528, (2011) 6217-6224
Décampsb, Low cycle fatigue of a nickel based superalloy at high temperature: deformation microstructures, Materials Science and Engineering: A. 316, no. 1-2, (2001) 18-31
A, Time-incremental creep–fatigue damage rule for single crystal Ni-base superalloys, Materials Science & Engineering A. 508 (2009). 200-208
A, Low-cycle fatigue of single crystal nickel-based superalloy – mechanical testing and TEM characterisation, Materials Science and Engineering: A. 744 (2019) 538-547
Hu, Thermo-mechanical fatigue behavior of a single crystal nickel-based superalloy, Materials Science and Engineering: A. 528, (2011) 6217-6224
Online since: October 2010
Authors: Shu Bo Li, Zhi Qiang Lan, Zhao Lu, Jin Guo
Ti-based alloys are also considered to be one of the most promising materials for electrode materials, because of their high hydrogen capacity and relatively good kinetics.
The Materials Data Inc. software Jade 5.0 and a Powder Diffraction File (PDF release 2002) were used to determine the phase relationships [6].
Acknowledgments This work was supported by the Foundation of Key Laboratory of National Education Ministry for Nonferrous Metals and Materials Processing Technology (GXKFJ-09), the National Natural Science Foundation of China (Grant 50861003) and the Natural Science Foundation of Guangxi (Grant No. 2010GXNSFD013004) References [1] Y.
Vol. 32(2007),P.2412 [6] Materials Data JADE Release 5, XRD Pattern Processing, Materials Data Inc., 1999
Materials Science and Engineering .
The Materials Data Inc. software Jade 5.0 and a Powder Diffraction File (PDF release 2002) were used to determine the phase relationships [6].
Acknowledgments This work was supported by the Foundation of Key Laboratory of National Education Ministry for Nonferrous Metals and Materials Processing Technology (GXKFJ-09), the National Natural Science Foundation of China (Grant 50861003) and the Natural Science Foundation of Guangxi (Grant No. 2010GXNSFD013004) References [1] Y.
Vol. 32(2007),P.2412 [6] Materials Data JADE Release 5, XRD Pattern Processing, Materials Data Inc., 1999
Materials Science and Engineering .
Online since: September 2013
Authors: Yu Chai Sun, Xiao Xiao Li, Jing Yu Xu, Rou Xi Chen
In recent years, more and more phase change materials were used in materials science filed, and has gained considerable attention [2].
The amount of the phase change materials is 950 g, and Phase change latent heat h is 92.706J/g.
And the test pointleft chest, back waist, two on Phase change materials bag, the others on vest outer layer.
[4] ZHU Fanglong.Numerical Simulation of Heat Transfer for Thermal Protective Clothing Incorporating Phase Change Material Layer[J].Journal of Basic Science and Engineering. 2011,19(4):635—642
[7] Mónica Delgado, Ana Lázaro,Javier Mazo, Belén Zalba.Review on phase change material emulsions and microencapsulated phase change material slurries: Materials, heat transfer studies and applications.
The amount of the phase change materials is 950 g, and Phase change latent heat h is 92.706J/g.
And the test pointleft chest, back waist, two on Phase change materials bag, the others on vest outer layer.
[4] ZHU Fanglong.Numerical Simulation of Heat Transfer for Thermal Protective Clothing Incorporating Phase Change Material Layer[J].Journal of Basic Science and Engineering. 2011,19(4):635—642
[7] Mónica Delgado, Ana Lázaro,Javier Mazo, Belén Zalba.Review on phase change material emulsions and microencapsulated phase change material slurries: Materials, heat transfer studies and applications.
Online since: June 2013
Authors: Reza Kebriaei, Stefanie Reese, Ivaylo N. Vladimirov
Details of these materials are given in Table 2.
ATable 2: Chemical combination of the applied materials.
However, since both materials have different thermo-mechanical material parameters, the distribution of the temperature is different than in the solid ring.
Heiko Moll (Chair of Materials Technology), Dr.
Needham, "An experimental investigation into the process of ring or metal tyre rolling", International Journal of Mechanical Sciences, vol. 10, no. 6, p. 455 468, 1968
ATable 2: Chemical combination of the applied materials.
However, since both materials have different thermo-mechanical material parameters, the distribution of the temperature is different than in the solid ring.
Heiko Moll (Chair of Materials Technology), Dr.
Needham, "An experimental investigation into the process of ring or metal tyre rolling", International Journal of Mechanical Sciences, vol. 10, no. 6, p. 455 468, 1968
Online since: July 2020
Authors: Vyacheslav V. Maksarov, V.A. Krasnyy, D.D. Maksimov
As a material for wear-resistant coatings, the most attention of researchers is drawn to materials based on carbides and nitrides of transition materials of the IV-VI group of the periodic system of elements.
Series: Journal of Physics: Conf.
Timofeev, Dimensional analysis of the manufacturing processes of axisymmetric parts, IOP Conference Series: Materials Science and Engineering 560(1) (2019) 012144
Bazhin, Doping titanium dioxide by fluoride ion, Materials Science Forum 946(1) (2019) 181-185
Bolobov, Influence of thermomechanical treatment modes on wear resistance of mining equipment material, Materials Science Forum 945 (2018) 695-699
Series: Journal of Physics: Conf.
Timofeev, Dimensional analysis of the manufacturing processes of axisymmetric parts, IOP Conference Series: Materials Science and Engineering 560(1) (2019) 012144
Bazhin, Doping titanium dioxide by fluoride ion, Materials Science Forum 946(1) (2019) 181-185
Bolobov, Influence of thermomechanical treatment modes on wear resistance of mining equipment material, Materials Science Forum 945 (2018) 695-699
Online since: November 2012
Authors: Zhan Feng Zhou
Remanufacturing is a more complex type of reverse supply chain and a general term in a series of technical measures and activities including repair and modification of waste products as the guide of product life cycle design and management theory, as the standard of high quality, high efficiency, energy saving, material saving, environmental protection and in order to achieve waste materials performance improvement also known as the" green manufacturing" [2].
References [1] Weixin Yao: submitted to Journal of Management Science (2004) [2] Jie Wei: submitted to Journal of Chinese Journal of Management Science (2005) [3] Xiaocheng Sun and Bengsheng Tu: submitted to Journal of Acta Scientiarum Naturallum(2007) [4] Ting Li: submitted to Journal of Logistics Technology (2007) [5] Yuyan Wang, Bangyi Li and Liang Shen: submitted to Journal of Transactions of Nanjing University of Aeronautics & Astronautics (2008) [6] Binshi Xu: submitted to Journal of Maschinen Markt (2009) [7] Zhongkai Xiong and Hongyan Zhang: submitted to Journal of Industry Engineering (2009) [8] Jing Sun and Xinquan Ge: submitted to Journal of Beijing Information Science & Technology University (2009) [9] Wei Wang: submitted to Journal of Statistics and Decision (2010) [10] Wenbin Wang and Qinli Da: submitted to Journal of Industrial Engineering and Engineering Management (2010)
References [1] Weixin Yao: submitted to Journal of Management Science (2004) [2] Jie Wei: submitted to Journal of Chinese Journal of Management Science (2005) [3] Xiaocheng Sun and Bengsheng Tu: submitted to Journal of Acta Scientiarum Naturallum(2007) [4] Ting Li: submitted to Journal of Logistics Technology (2007) [5] Yuyan Wang, Bangyi Li and Liang Shen: submitted to Journal of Transactions of Nanjing University of Aeronautics & Astronautics (2008) [6] Binshi Xu: submitted to Journal of Maschinen Markt (2009) [7] Zhongkai Xiong and Hongyan Zhang: submitted to Journal of Industry Engineering (2009) [8] Jing Sun and Xinquan Ge: submitted to Journal of Beijing Information Science & Technology University (2009) [9] Wei Wang: submitted to Journal of Statistics and Decision (2010) [10] Wenbin Wang and Qinli Da: submitted to Journal of Industrial Engineering and Engineering Management (2010)
Online since: November 2013
Authors: Mohd Firdaus Malek, Musa Mohamed Zaihidi, Mohd Zainizan Sahdan, Mohamad Hafiz Mamat, Mohamad Rusop Mahmood, Zuraida Khusaimi
Science Officer), Mr.
Chen, Reactive ball milling to produce nanocrystalline ZnO, Materials Letters 62 (2008) 4047-4049
[7] A.K Srivastava, Direct evidence for electron beam irradiation-induced phenomena in nanowired ZnO thin films, Materials Letters 62 (2008) 4296-4298
[9] Xiulan Hu, Yoshitake Masuda, Tatsuki Ohji, Kazumi Kato, In situ forced hydrolysis-assisted fabrication and photo-induced electrical property in sensor of ZnO nanoarrays, Journal of Colloid and Interface Science 325 (2008) 459-463
Scherer, Sol-Gel Science: The Physics and Chemistry of Sol-Gel Processing, New York: Academic Press, 803, 1975
Chen, Reactive ball milling to produce nanocrystalline ZnO, Materials Letters 62 (2008) 4047-4049
[7] A.K Srivastava, Direct evidence for electron beam irradiation-induced phenomena in nanowired ZnO thin films, Materials Letters 62 (2008) 4296-4298
[9] Xiulan Hu, Yoshitake Masuda, Tatsuki Ohji, Kazumi Kato, In situ forced hydrolysis-assisted fabrication and photo-induced electrical property in sensor of ZnO nanoarrays, Journal of Colloid and Interface Science 325 (2008) 459-463
Scherer, Sol-Gel Science: The Physics and Chemistry of Sol-Gel Processing, New York: Academic Press, 803, 1975