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Online since: August 2014
Authors: S. Balasivanandha Prabu, R. Paskaramoorthy, Gurusamy P
Raghothama Rao, Production and mechanical properties of SiCp particle-reinforced 2618 aluminum alloy composites, Journal of Materials Science, 2008, 43, 7047-7056
Mohan, Influence of stirring speed and stirring time on distribution of particles in cast metal matrix composite, Journal of Materials Processing Technology, 2006, 171, 268-273
Kang, The effect of applied pressure on particle dispersion characteristics and mechanical properties in melt-stirring squeeze cast SiCp/Al composites, Journal of Materials Processing Technology, 1995, 55, 370-379
Chadwick, Squeeze casting of light alloys and their composites, Journal of Materials Processing Technology 1996, 58, 302-307
Yang, The effect of solidification time in squeeze casting of aluminium and zinc alloys, Journal of Materials Processing Technology, 2007, 192-193,114-120
Mohan, Influence of stirring speed and stirring time on distribution of particles in cast metal matrix composite, Journal of Materials Processing Technology, 2006, 171, 268-273
Kang, The effect of applied pressure on particle dispersion characteristics and mechanical properties in melt-stirring squeeze cast SiCp/Al composites, Journal of Materials Processing Technology, 1995, 55, 370-379
Chadwick, Squeeze casting of light alloys and their composites, Journal of Materials Processing Technology 1996, 58, 302-307
Yang, The effect of solidification time in squeeze casting of aluminium and zinc alloys, Journal of Materials Processing Technology, 2007, 192-193,114-120
Online since: November 2011
Authors: Anil Kumar, S. Maheshwari, C. Sharma
Beri: Materials and Manufacturing Processes Vol. 25 (2010), p. 1166
[2] H.K.
Kumar: Journal of Materials Processing Technology Vol. 184 (2007), p. 32 [3] K.P.
He: Journal of Materials Processing Technology Vol. 52 (1995), p. 44 [7] Y.S., Wong, L.C.
Tee: Journal of Materials Processing Technology Vol. 79 (1998), p. 30 [8] H.K.
Kumar: Journal of Materials Processing Technology Vol. 169 (2005), p. 427 [9] S.
Kumar: Journal of Materials Processing Technology Vol. 184 (2007), p. 32 [3] K.P.
He: Journal of Materials Processing Technology Vol. 52 (1995), p. 44 [7] Y.S., Wong, L.C.
Tee: Journal of Materials Processing Technology Vol. 79 (1998), p. 30 [8] H.K.
Kumar: Journal of Materials Processing Technology Vol. 169 (2005), p. 427 [9] S.
Online since: November 2023
Authors: Frank Walther, Lars Andree Lingnau
Tekkaya, Stress state control by a novel bending process and its effect on damage evolution, Volume 2: Materials.
Fatigue and Fracture of Engineering Materials and Structures 21 (1998) 1473–1484. doi:10.1002/pamm.201410492
Journal of Manufacturing Science and Engineering 145 (1) (2023), 011011. doi:10.1115/1.4056266
Procedia Materials Science, Volume 3 (2014) 209-214. doi: 10.1016/j.mspro.2014.06.037
Materials 13 (11) (2020). doi:10.3390/ma13112463.
Fatigue and Fracture of Engineering Materials and Structures 21 (1998) 1473–1484. doi:10.1002/pamm.201410492
Journal of Manufacturing Science and Engineering 145 (1) (2023), 011011. doi:10.1115/1.4056266
Procedia Materials Science, Volume 3 (2014) 209-214. doi: 10.1016/j.mspro.2014.06.037
Materials 13 (11) (2020). doi:10.3390/ma13112463.
Online since: February 2026
Authors: Svitlana Hryhorenko, Liubov Yeremeieva, Olga Kushnarova, Yevhenii Titkov, Valery Kostin, Olena M. Berdnikova
Materials Science & Metallurgy. 55 (2005) 149–173
Progress in Materials Science. (54) Iss. 3 (2009) 397–425
Progress in Materials Science. (54) Iss. 3 (2009) 397–425
Materials Science and Materials Engineering. 2 (2014) 7-36
Journal of Electronic Materials. 33, №7 (2004) 15-17
Progress in Materials Science. (54) Iss. 3 (2009) 397–425
Progress in Materials Science. (54) Iss. 3 (2009) 397–425
Materials Science and Materials Engineering. 2 (2014) 7-36
Journal of Electronic Materials. 33, №7 (2004) 15-17
Online since: June 2013
Authors: Kun Hao, Hui Chang Niu, Fang Qu
Application of Phast in the Quantitative Evaluation for the Liquefied Ammonia Leakage Accidents
Fang Qu1,a, Kun Hao2,b and Huichang Niu3,c
1College of Safety Engineering, Shenyang Aerospace University, Shenyang, 110136, China
2LIAONING ACADEMY OF SAFETY SCIENCE, Shenyang, 110004, China
3State Key Laboratory of Fire Science, University of Science and Technology of China, Hefei, 230026, China
ayjhhlj@163.com, b185671654@qq.com, cnhc52@163.com
Keywords: Phast, Quantitative evaluation, Liquefied ammonia, Leakage, Toxicity ranges.
Introduction As an important raw material for the chemical industry, ammonia has a wide range of applications, mainly used for nitrogen fertilizer manufacturing, nitric acid synthesis, petroleum refining, synthetic fiber, medicine, metal heat treatment, refrigeration, etc.
(in Chinese) [2] Nishant Pandya, Nadine Gabas and Eric Marsden: Journal of Loss Prevention in the Process Industries.
Javier Cruz-Go´mez and Alexander Mendoza: international journal o f hydrogen energy.
[5] Z.X.Li, Y.J.Qin and X.Xia: Journal of Safety Science and Technology.
Introduction As an important raw material for the chemical industry, ammonia has a wide range of applications, mainly used for nitrogen fertilizer manufacturing, nitric acid synthesis, petroleum refining, synthetic fiber, medicine, metal heat treatment, refrigeration, etc.
(in Chinese) [2] Nishant Pandya, Nadine Gabas and Eric Marsden: Journal of Loss Prevention in the Process Industries.
Javier Cruz-Go´mez and Alexander Mendoza: international journal o f hydrogen energy.
[5] Z.X.Li, Y.J.Qin and X.Xia: Journal of Safety Science and Technology.
Online since: July 2014
Authors: Jiang Chuan Liu, Zhi Gang Yin, Wei Ji
Acknowledgements
This work was financially supported by the National Natural Science Foundation of China (Grant No.51179011 ).
References [1] HU Lin-lin, WANG Jian-long, WEN Xiang-hua, etal, Improvements on Biological Nitrogen Removal Under Low Dissolved Oxygen Concentration, China Journal of Applied and Environmental Biology, 9(4). 444-447(2003)(In Chinese) [2] WANG Jian-long, WANG Shu-ying, PENG Yong-zhen, etal, Simultaneous Nitrogen and Phosphorous Removal Under Low DO in a Hybrid Biological Reactor, Environmental Science, 29(3). 655-659(2008) (In Chinese) [3] WANG Dong-bo, LI Xiao-ming, ZENG Guang-ming, etal, Simultaneous Nitrogen and Phosphorous Removal in the Reactor of Inner Loop SBR without Anaerobic Phase, Environmental Science, 28(3). 534-539(2007) (In Chinese) [4] BIAN De-jun, REN Qing-kai, WAN Li-guo, Effects of Aeration Volume on Velocity Distribution of Fluid in Multi-Flora Biological Wastewater Treatment Reactor, Advanced Materials Research, 255.2740-2744(2011) (In Chinese) [5] LIU Miao, CHEN Rui-yang, LI Guang-zhu, etal, Simulataneous Nitrogen Removal in the Micro-Pressurized Fluidized Hybrid
Biological Reactor, Journal of Jilin University(Earth Science Edition), 42(3). 832-836(2012) (In Chinese) [6] REN Qing-kai, LI Cheng-bing, LIU Jiang-chuan, etal, The CFD Numerical Simulation and Experimental Study on Micro-Pressure Internal Circulation Reactor, J.
Edi.), 14(4). 11-14(2013) (In Chinese) [7] XU W, YU G, XUE C H, etal, Biochemical Changes Associated with Fast Fermentation of Squid Processing By-Products for Low Salt Fish Sauce, Food Chemistry, 107(4).1597-1604(2008) (In Chinese) [8] XIAO Hao-fei, ZHOU Mei-hua, CFD Simulation of Gas-Liquid Flow in Aeration Tank, Journal of Anhui Agri.
References [1] HU Lin-lin, WANG Jian-long, WEN Xiang-hua, etal, Improvements on Biological Nitrogen Removal Under Low Dissolved Oxygen Concentration, China Journal of Applied and Environmental Biology, 9(4). 444-447(2003)(In Chinese) [2] WANG Jian-long, WANG Shu-ying, PENG Yong-zhen, etal, Simultaneous Nitrogen and Phosphorous Removal Under Low DO in a Hybrid Biological Reactor, Environmental Science, 29(3). 655-659(2008) (In Chinese) [3] WANG Dong-bo, LI Xiao-ming, ZENG Guang-ming, etal, Simultaneous Nitrogen and Phosphorous Removal in the Reactor of Inner Loop SBR without Anaerobic Phase, Environmental Science, 28(3). 534-539(2007) (In Chinese) [4] BIAN De-jun, REN Qing-kai, WAN Li-guo, Effects of Aeration Volume on Velocity Distribution of Fluid in Multi-Flora Biological Wastewater Treatment Reactor, Advanced Materials Research, 255.2740-2744(2011) (In Chinese) [5] LIU Miao, CHEN Rui-yang, LI Guang-zhu, etal, Simulataneous Nitrogen Removal in the Micro-Pressurized Fluidized Hybrid
Biological Reactor, Journal of Jilin University(Earth Science Edition), 42(3). 832-836(2012) (In Chinese) [6] REN Qing-kai, LI Cheng-bing, LIU Jiang-chuan, etal, The CFD Numerical Simulation and Experimental Study on Micro-Pressure Internal Circulation Reactor, J.
Edi.), 14(4). 11-14(2013) (In Chinese) [7] XU W, YU G, XUE C H, etal, Biochemical Changes Associated with Fast Fermentation of Squid Processing By-Products for Low Salt Fish Sauce, Food Chemistry, 107(4).1597-1604(2008) (In Chinese) [8] XIAO Hao-fei, ZHOU Mei-hua, CFD Simulation of Gas-Liquid Flow in Aeration Tank, Journal of Anhui Agri.
Online since: June 2014
Authors: Guang Xu Liu, Wen Yao Chen, Miao An Shu, Xin Guo Zhao, Chao Peng, Xin Peng, Hong Xi Wu, Zhi Hua Lin
Fig.1 The topography and location of Sanmen Bay
Materials and Methods
Adult razor clams were obtained from Qijiang research station of Zhejiang Mariculture Research Institute in July 2013.
Journal of Fisheries of China, 2002, 26(3): 226-230
Journal of Ocean University of Qingdao, 2002, 32(1): 56-62
Chinese Journal of Oceanology and Limnology, 2012, 30(2): 206-211
Ecology and Environmental Sciences, 2013, 22(3): 458-464.
Journal of Fisheries of China, 2002, 26(3): 226-230
Journal of Ocean University of Qingdao, 2002, 32(1): 56-62
Chinese Journal of Oceanology and Limnology, 2012, 30(2): 206-211
Ecology and Environmental Sciences, 2013, 22(3): 458-464.
Online since: July 2014
Authors: Muhammad Ilman Hakimi Chua Abdullah, Mohd Fadzli bin Abdollah, Hilmi Amiruddin, Noreffendy Tamaldin, Masjuki Hassan, Nur Rashid Mat Nuri, Abdul Rafeq Saleman
Tamaldin, Friction behaviour of bearing material under gas lubricated conditions, Procedia Engineering, 68 (2013) 688-693
Tamaldin, Experimental study on friction and wear behaviors of bearing material under gas lubricated conditions, Jurnal Teknologi (Sciences and Engineering), 66 (2014) 43-49
Cao, Friction and wear properties of ZrO2/SiO2 composite nanoparticles, Journal of Nanoparticle Research, 13 (2011) 2129-2137
Hyung Kim, Effect of the size and morphology of particles dispersed in nano-oil on friction performance between rotating discs, Journal of Mechanical Science and Technology, 25 (2011) 2853-2857
Chen, Preparation of Ni nanoparticles and evaluation of their tribological performance as potential additives in oils, Journal of Tribology, 123 (1999) 441-443
Tamaldin, Experimental study on friction and wear behaviors of bearing material under gas lubricated conditions, Jurnal Teknologi (Sciences and Engineering), 66 (2014) 43-49
Cao, Friction and wear properties of ZrO2/SiO2 composite nanoparticles, Journal of Nanoparticle Research, 13 (2011) 2129-2137
Hyung Kim, Effect of the size and morphology of particles dispersed in nano-oil on friction performance between rotating discs, Journal of Mechanical Science and Technology, 25 (2011) 2853-2857
Chen, Preparation of Ni nanoparticles and evaluation of their tribological performance as potential additives in oils, Journal of Tribology, 123 (1999) 441-443
Online since: June 2013
Authors: Traian Onet, Olar Radu
In general, small quantities (~1%) of nano-sized materials are sufficient to improve the behaviour of nano-composites [17].
An important type of nano-sized materials, proper to be used in the cement and concrete mixture are carbon nano-tubes.
Another advantage is the „web-free-acces” posibility, that offers the oportunity to bring togheter researchers from the concrete domain, materials science, chemistry, physics and other researches domains with interest in the nano-materials field.
Engineering of SiO2 nano-particles for optimal performance in nano-cement-based materials.
Carbon nanofiber/cement composites: challenges and promises as structural materials.
An important type of nano-sized materials, proper to be used in the cement and concrete mixture are carbon nano-tubes.
Another advantage is the „web-free-acces” posibility, that offers the oportunity to bring togheter researchers from the concrete domain, materials science, chemistry, physics and other researches domains with interest in the nano-materials field.
Engineering of SiO2 nano-particles for optimal performance in nano-cement-based materials.
Carbon nanofiber/cement composites: challenges and promises as structural materials.
Online since: December 2014
Authors: Wei Wang, Nai Zhi Zhao, Shi Yan, Yang Cheng, Xin Zi Yuan
Piezoelectric materials can be used as sensors and drivers to use according to the direct and inverse piezoelectric effect of piezoelectric materials[5].
The piezoelectric materials in this article are all PZT elements so that taking an example of PZT to illustrate[6].
[4]S.Yan, W.Sun, G.Song, H.C.Gu, L.S.Huo, B.Liu and Y.G.Zhang: Smart Materials and Structures Vol. 18(4)2009, p. 1
[10] H.Yang and C.Wang: Journal of North University of China (Natural Science Edition) Vol. 27(4)2006, p. 348.
He: Chinese Journal of Applied Mechanics Vol. 20(2)2003, p. 72.
The piezoelectric materials in this article are all PZT elements so that taking an example of PZT to illustrate[6].
[4]S.Yan, W.Sun, G.Song, H.C.Gu, L.S.Huo, B.Liu and Y.G.Zhang: Smart Materials and Structures Vol. 18(4)2009, p. 1
[10] H.Yang and C.Wang: Journal of North University of China (Natural Science Edition) Vol. 27(4)2006, p. 348.
He: Chinese Journal of Applied Mechanics Vol. 20(2)2003, p. 72.