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Online since: October 2008
Authors: Ming Wei Wang, Liwen Zhang
Zhang
2,b
1
School of Mechanical Engineering and Automation, Dalian Polytechnic University, Dalian
116034,China
2
School of Material Science and Engineering, Dalian University of Technology, Dalian 116085,China
a
wangmw@dlpu.edu.cn, bcommat@student.dlut.edu.cn
Keywords: BT20 Ti-alloy, Vacuum hot bulge forming, FEM, Numerical simulation
Abstract.
Mechanical properties and thermal expansion coefficient of materials are measured by experiment.
Kang: Journal of Harbin Institute of Technology, Vol. 38 (2006) No.1, pp. 191
Li: Chinese Journal of Mechanical Engineering, Vol. 28 (1992) No.1, pp. 53 (In Chinese)
Dean: Journal of Materials Processing Technology, Vol. 153-154 (2004), pp. 122
Mechanical properties and thermal expansion coefficient of materials are measured by experiment.
Kang: Journal of Harbin Institute of Technology, Vol. 38 (2006) No.1, pp. 191
Li: Chinese Journal of Mechanical Engineering, Vol. 28 (1992) No.1, pp. 53 (In Chinese)
Dean: Journal of Materials Processing Technology, Vol. 153-154 (2004), pp. 122
Online since: June 2013
Authors: Xiong Chen, Rui Liu, Chang Sheng Zhou
Due to the different thermal resistance ability, steps are formed at the interface of two materials.
Several thermal protection materials have been successfully used in solid-propellant motors, such as carbon-based materials, reinforced-polymer composites, refractory metals and ceramics[3,4].
C is also the interface of two materials.
O.: AIAA Journal Vol. 3 (1965), p.1250-1257 [5] Evans B., Kuo K.
K.: AIAA Paper No.2007-5776 [6] Piyush Thakre, Vigor Yang: Journal of Propulsion and Power Vol. 24 (2008), p.822-833
Several thermal protection materials have been successfully used in solid-propellant motors, such as carbon-based materials, reinforced-polymer composites, refractory metals and ceramics[3,4].
C is also the interface of two materials.
O.: AIAA Journal Vol. 3 (1965), p.1250-1257 [5] Evans B., Kuo K.
K.: AIAA Paper No.2007-5776 [6] Piyush Thakre, Vigor Yang: Journal of Propulsion and Power Vol. 24 (2008), p.822-833
Online since: March 2026
Authors: Yin Fong Yeong, Mohamad Azmi Bustam, Norwahyu Jusoh, Marhaina Ismail
MOFs are crystalline materials consisting of metal ions or clusters connected by organic ligands containing functional groups, characterized by their uniform porous structures, high surface areas, adjustable channels, and systematically arranged active sites [7].
Yeong, Adsorption of carbon dioxide and methane on cobalt gallate-based metal-organic framework (Co-Gallate): Equilibrium isotherm, thermodynamic and kinetic studies, Journal of Advanced Research in Fluid Mechanics and Thermal Sciences 108(2) (2023) 151-163
Chen, Controlling flexibility of metal–organic frameworks, National Science Review 5(6) (2018) 907-919
Gao, Realization of super high adsorption capability of 2D δ-MnO2/GO through intra-particle diffusion, Materials Chemistry and Physics 232 (2019) 374-381
Yaghi, Secondary building units as the turning point in the development of the reticular chemistry of MOFs, Science Advances 4(10) (2018) eaat9180
Yeong, Adsorption of carbon dioxide and methane on cobalt gallate-based metal-organic framework (Co-Gallate): Equilibrium isotherm, thermodynamic and kinetic studies, Journal of Advanced Research in Fluid Mechanics and Thermal Sciences 108(2) (2023) 151-163
Chen, Controlling flexibility of metal–organic frameworks, National Science Review 5(6) (2018) 907-919
Gao, Realization of super high adsorption capability of 2D δ-MnO2/GO through intra-particle diffusion, Materials Chemistry and Physics 232 (2019) 374-381
Yaghi, Secondary building units as the turning point in the development of the reticular chemistry of MOFs, Science Advances 4(10) (2018) eaat9180
Online since: February 2014
Authors: Srikanjana Jatuphatwarodom
The covering materials chosen for the modelswere hand-woven cotton fabrics from four sources.
The sub materials were non-woven pressed fabrics.
Overall, hand-woven fabric from Narathiwat was the most suitable for covering materials.
Journal of Fibers and Polymers., 11(2): 161-166
International Journal of Clothing Science and Technology., 2011; 23(1): 6-24
The sub materials were non-woven pressed fabrics.
Overall, hand-woven fabric from Narathiwat was the most suitable for covering materials.
Journal of Fibers and Polymers., 11(2): 161-166
International Journal of Clothing Science and Technology., 2011; 23(1): 6-24
Online since: September 2013
Authors: Zong Ming Liu, Wei Lin Zhao, Yan Fang Niu, Yu Ying Gong
Heat Transfer Enhancement of the Heat Pipe Using SiO2-water Nanofluid
Yuying Gong1,a, Weilin Zhao1,b*, Zongming Liu 1,c, Yanfang Niu 1,d
1University of Jinan, School of Materials Science and Engineering, Jinan 250022, China
agongyyjiayou@163.com, b*mse_zhaowl@ujn.edu.cn, cost_liuzm@ujn.edu.cn, d15275315039@139.com
Keywords: Heat pipe, Nanofluid, Heat transfer enhancement, Particle concentration
Abstract.
(a) (b) 1- Heat pipe, 2- Electric heating belt, 3- Insulation materials, 4- Thermocouple, 5- Ammeter, 6- Voltage regulator, 7- Data acquisition unit, 8- Heat pipe bracket Fig. 3.
Kahani: International Journal of Heat and Fluid Flow Vol. 30 (2009), p. 700-705
Morjan: International Journal of Heat and Mass Transfer Vol. 54 (2011), p. 656–661
Hamed: International Journal of Heat and Mass Transfer Vol. 55 (2012), p. 3423-3436
(a) (b) 1- Heat pipe, 2- Electric heating belt, 3- Insulation materials, 4- Thermocouple, 5- Ammeter, 6- Voltage regulator, 7- Data acquisition unit, 8- Heat pipe bracket Fig. 3.
Kahani: International Journal of Heat and Fluid Flow Vol. 30 (2009), p. 700-705
Morjan: International Journal of Heat and Mass Transfer Vol. 54 (2011), p. 656–661
Hamed: International Journal of Heat and Mass Transfer Vol. 55 (2012), p. 3423-3436
Online since: December 2012
Authors: Shi Jie Wang, Yu Zeng Zhang, Xiao Ren Lv, Rui Nie, Ming Yin Yan
Journal of Lanzhou University (Natural Sciences).
Karger-Kocsis: Journal of Applied Polymer Science Vol. 115(3) (2010), p.1651 [6] Shojaei, M.
Saffar: Journal of Materials Science Vol. (2010), p.1 [7] A.I.
Effect of grafting cellulose acetate and methylmethacrylate as compatibilizer onto NBR/SBR blends [J].Materials and Design.
Iran Polymer Journal.
Karger-Kocsis: Journal of Applied Polymer Science Vol. 115(3) (2010), p.1651 [6] Shojaei, M.
Saffar: Journal of Materials Science Vol. (2010), p.1 [7] A.I.
Effect of grafting cellulose acetate and methylmethacrylate as compatibilizer onto NBR/SBR blends [J].Materials and Design.
Iran Polymer Journal.
Online since: July 2014
Authors: Jun Chen, Qing Zhang, Xing Yuan Zhang, Quan An Li
Materials Science and Engineering A, Vol. 302 (2001), p. 37
[2] A.A.
Materials Science Forum, Vol. 419-422 (2003), p. 57 [3] D.
Frontier Materials Science of China, Vol. 2 (2008), p. 1 [5] J.L.
Journal of Materials Science, Vol. 43 (2008), p. 6952 [6] M.
Materials Science and Engineering A, Vol. 428 (2006), p. 295 [8] D.Q.
Materials Science Forum, Vol. 419-422 (2003), p. 57 [3] D.
Frontier Materials Science of China, Vol. 2 (2008), p. 1 [5] J.L.
Journal of Materials Science, Vol. 43 (2008), p. 6952 [6] M.
Materials Science and Engineering A, Vol. 428 (2006), p. 295 [8] D.Q.
Online since: March 2011
Authors: Joost R. Duflou, Hugo Sol, Ioannis Vasilakos, Jun Gu, Hans Vanhove
Van Den Boogaard: Key Engineering Materials, Vol. 344 (2007), p. 519
Duflou: Key Engineering Materials, Vol. 410 (2009), p. 401
Habraken: Key Engineering Materials, 2007.
Van Houtte: submitted to International Journal of Material Forming (2008)
Vantomme: submitted to High Performance Structures and Materials III (2006)
Duflou: Key Engineering Materials, Vol. 410 (2009), p. 401
Habraken: Key Engineering Materials, 2007.
Van Houtte: submitted to International Journal of Material Forming (2008)
Vantomme: submitted to High Performance Structures and Materials III (2006)
Online since: May 2011
Authors: Xian Yu Jin, Nan Guo Jin, Ye Tian, Chuan Qing Fu, De Jin Xu
Construction and Building Materials, Vol.21,(2007), pp.1229~1237
Journal of Materials in Civil Engineering, Vol.6,(1994),pp.357~375 [5] Chi Sun Poon, Lik Lam, and Yuk Lung Wong.Effects of Fly Ash and Silica Fume on Interfacial Porosity of Concrete.
Journal of Materials in Civil Engineering, Vol.11, (1999),pp.197~205 [6] Bruce G.
Journal of Materials in Civil Engineering, Vol.13, (2001),pp. 41~48 [7] Xianyu Jin and Zongjin Li.
Journal of Materials in Civil Engineering, Vol.15,(2003), 435-442 [8] Wu, X., Zhu, H., Hou, X., and Li, H..
Journal of Materials in Civil Engineering, Vol.6,(1994),pp.357~375 [5] Chi Sun Poon, Lik Lam, and Yuk Lung Wong.Effects of Fly Ash and Silica Fume on Interfacial Porosity of Concrete.
Journal of Materials in Civil Engineering, Vol.11, (1999),pp.197~205 [6] Bruce G.
Journal of Materials in Civil Engineering, Vol.13, (2001),pp. 41~48 [7] Xianyu Jin and Zongjin Li.
Journal of Materials in Civil Engineering, Vol.15,(2003), 435-442 [8] Wu, X., Zhu, H., Hou, X., and Li, H..