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Online since: May 2020
Authors: Graeme E. Murch, Irina V. Belova, Leila Momenzadeh
Murch1,c
1The University Centre for Mass and Thermal Transport in Engineering Materials, PRC for Geotechnical Science and Engineering, School of Engineering, The University of Newcastle, Callaghan, NSW 2308, Australia
a*leila.momenzadeh@uon.edu.au, birina.belova@newcastle.edu.au, cgraeme.murch@newcastle.edu.au
aPhone number: +61249217213
Keywords: phonon thermal conductivity, zirconia, molecular dynamic simulation, Green-Kubo.
In a recent study, McGaughey and Kaviany [5] have used MD simulations based on the Green-Kubo formula to calculate the thermal conductivity of ionic materials.
Acknowledgments This research was supported by the Centre for Mass and Thermal Transport in Engineering Materials at the University of Newcastle and the Australian Research Council.
Journal of Materials Chemistry. 19(23) (2009) 3923-3930
Progress in Natural Science: Materials International, 23(4) (2013) 440-445.
In a recent study, McGaughey and Kaviany [5] have used MD simulations based on the Green-Kubo formula to calculate the thermal conductivity of ionic materials.
Acknowledgments This research was supported by the Centre for Mass and Thermal Transport in Engineering Materials at the University of Newcastle and the Australian Research Council.
Journal of Materials Chemistry. 19(23) (2009) 3923-3930
Progress in Natural Science: Materials International, 23(4) (2013) 440-445.
Online since: December 2014
Authors: Xi Qing Yue, Jun Rui Wu, Qi Wei Mao
Optimization of the Uncooked Oratosquilla oratoria Curing Process via Response Surface Methodology
Mao Qiwei1,a, Wu Junrui2,b, Yue Xiqing3,c
1 College of Food Science,Shenyang Agricultural University,Liaoning,Shenyang,110161,China
2 College of Food Science,Shenyang Agricultural University,Liaoning,Shenyang,110161,China
3 College of Food Science,Shenyang Agricultural University,Liaoning,Shenyang,110161,China
asyaumqw0827@163.com, bjunruiwu@126.com, cyxqsyau@126.com
Keywords: Uncooked oratosquilla oratoria; Curing process; Response surface methodology ;Total bacteria; Pathogenic bacteria ;Sensory evaluation
Abstract.
Oratosquilla oratoria was the experimental raw materials in the paper.
Materials Reagents.
Journal of Aquatic Food Product Technology, 2006, 13(4): 71-80
Journal of Food Science, 2002, 67(3): 1233-1239.
Oratosquilla oratoria was the experimental raw materials in the paper.
Materials Reagents.
Journal of Aquatic Food Product Technology, 2006, 13(4): 71-80
Journal of Food Science, 2002, 67(3): 1233-1239.
Online since: April 2013
Authors: Marco Arturo García Rentería, Víctor Hugo López Morelos, Rafael García Hernández, Francisco Curiel López, José Lemus-Ruíz
Baeslack, Welding of duplex stainless steels, Key Engineering Materials 69-70 (1992) 217-252
Sundaresan, Effect of weld metal chemistry and heat input on the structure and properties of duplex stainless steel welds, Materials Science and Engineering 358 (2003) 9-16
Honeycombe, Microstructural refinement of duplex stainless steels, Material Science and Technology 7 (1990) 137-145
Barrena, The effect of N2 addition upon the MIG welding process of duplex steels, Journal of Material Science 42 (2007) 4892-4898
Noorul Haq, Effect of shielding gases on mechanical and metallurgical properties of duplex stainless-steel, Journal of Materials Science 44 (2009) 114-121
Sundaresan, Effect of weld metal chemistry and heat input on the structure and properties of duplex stainless steel welds, Materials Science and Engineering 358 (2003) 9-16
Honeycombe, Microstructural refinement of duplex stainless steels, Material Science and Technology 7 (1990) 137-145
Barrena, The effect of N2 addition upon the MIG welding process of duplex steels, Journal of Material Science 42 (2007) 4892-4898
Noorul Haq, Effect of shielding gases on mechanical and metallurgical properties of duplex stainless-steel, Journal of Materials Science 44 (2009) 114-121
Online since: March 2011
Authors: Shahrum Abdullah, Mohd Zaki Nuawi, Mahfodzah M. Padzi
Materials and Method
Material.
Zaharin: Journal of Applied Sciences(2008) 1590-1593
Nizwan: Journal of Applied Science (2008) 1541-1547
Yamaguchi et. al: Journal of Science and Technology of Advanced Materials (2007) [10] W.D.
Callister in: Materials Science and Engineering: An Introduction, 7th edition, p. 209 (Wiley, Asia, 2007)
Zaharin: Journal of Applied Sciences(2008) 1590-1593
Nizwan: Journal of Applied Science (2008) 1541-1547
Yamaguchi et. al: Journal of Science and Technology of Advanced Materials (2007) [10] W.D.
Callister in: Materials Science and Engineering: An Introduction, 7th edition, p. 209 (Wiley, Asia, 2007)
Online since: August 2013
Authors: Ying Zhou Chen, Peng Yang, Gen Bo Yu
It mainly researches the process and regularity which solid materials and their structures are in the final result in the destruction with the damage development under certain loads and special environmental condition [1].The geotechnical engineering field has always attached great importance to the relationship between the deformation and strength of the geotechnical materials, while damage mechanics is an important means to solve this problem.
There are many researches on the damaged constitutive relation of geotechnical materials.
In the literature [6], according to the conclusion that the strength of materials obeys the Weibull statistical distribution, it established the constitutive relation of filling body.
References [1] Wei Shen, Damage mechanics, Wuhan, Huazhong University of Science and Technology Press, 1989.
(In Chinese) [2] Weiya Xu, Lide Wei: Chinese Journal of Rock Mechanics and Engineering (2002) (In Chinese) [3] Wengui Cao, Zulie Fang, Xuejun Tang: Chinese Journal of Rock Mechanics and Engineering (1998) (In Chinese) [4] Wengui Cao, Sheng Zhang: Journal of Hunan University (Natural Science) (2005) (In Chinese) [5] Zhixiang Liu, Xibing LI, Tagen Dai: Rock and Soil Mechanics (2006) (In Chinese) [6] Daiqiang Deng, Zhongliang Yao, Shaohui Tang, et al: Soil Engineering and Foundation (2006) (In Chinese)
There are many researches on the damaged constitutive relation of geotechnical materials.
In the literature [6], according to the conclusion that the strength of materials obeys the Weibull statistical distribution, it established the constitutive relation of filling body.
References [1] Wei Shen, Damage mechanics, Wuhan, Huazhong University of Science and Technology Press, 1989.
(In Chinese) [2] Weiya Xu, Lide Wei: Chinese Journal of Rock Mechanics and Engineering (2002) (In Chinese) [3] Wengui Cao, Zulie Fang, Xuejun Tang: Chinese Journal of Rock Mechanics and Engineering (1998) (In Chinese) [4] Wengui Cao, Sheng Zhang: Journal of Hunan University (Natural Science) (2005) (In Chinese) [5] Zhixiang Liu, Xibing LI, Tagen Dai: Rock and Soil Mechanics (2006) (In Chinese) [6] Daiqiang Deng, Zhongliang Yao, Shaohui Tang, et al: Soil Engineering and Foundation (2006) (In Chinese)
Online since: January 2012
Authors: Ehsan Soury, Amir Hossein Behravesh, Nathan Jafarian Jam, Ali Haghtalab
A problem that usually occurs in production of extruded parts of polymeric materials, and in special case of WPC, is flow instabilities at the extrusion die exit.
Experimental Materials.
Vlachopoulos, Surface tearing and wall slip phenomena in extrusion of highly filled HDPE/Wood flour composites, Polymer Engineering & Science, 46 (2006) 1204-1214
Golzar, Theoretical and experimental study on die pressure prediction in extrusion of wood plastic composite, Journal of Composite Materials, 44 (2010) 1293
Behravesh, Flow behavior of HDPE-fine wood particles composites, Journal of Thermoplastic Composite Materials, 20 (2007) 439-451.
Experimental Materials.
Vlachopoulos, Surface tearing and wall slip phenomena in extrusion of highly filled HDPE/Wood flour composites, Polymer Engineering & Science, 46 (2006) 1204-1214
Golzar, Theoretical and experimental study on die pressure prediction in extrusion of wood plastic composite, Journal of Composite Materials, 44 (2010) 1293
Behravesh, Flow behavior of HDPE-fine wood particles composites, Journal of Thermoplastic Composite Materials, 20 (2007) 439-451.
Online since: March 2015
Authors: Vladimir An, Yuriy Irtegov, Maxim Azhgikhin
Metal oxides nanoparitcles are used for CO gas detecting [3], promising materials for gas detecting are semiconductor metal sulfides such as CuS [4], AgS [5], WS2 [6] MoS2 [7] and other.
Production method for these materials is exfoliation of WS2/MoS2 crystal and following deposition on Si/SiO2 substrates.
Metal dichalcogenides particles produced from metal nanopowders and characterized by nanoscale layers [11] are promising materials for multipurpose application including gas sensor.
Shiyan, The forming of model colloid system, Advanced Materials Research 971-973 (2014), 266-269
An, Study of tungsten and molybdenum nanopowders interaction with sulphur in SHS conditions and synthesized product properties, Advanced Materials Research 1040 (2014), 171-175
Production method for these materials is exfoliation of WS2/MoS2 crystal and following deposition on Si/SiO2 substrates.
Metal dichalcogenides particles produced from metal nanopowders and characterized by nanoscale layers [11] are promising materials for multipurpose application including gas sensor.
Shiyan, The forming of model colloid system, Advanced Materials Research 971-973 (2014), 266-269
An, Study of tungsten and molybdenum nanopowders interaction with sulphur in SHS conditions and synthesized product properties, Advanced Materials Research 1040 (2014), 171-175
Online since: April 2016
Authors: Xu Zhang, Han Zhou, Tian Qing Xiao, Bin Liao, Xian Ying Wu, Qing Yan Hou
Nanohardness, modulus of elasticity and the elastic recovery were measured by Wrexham Micro Materials Ltd.
The H/E and ERP are used to describe the failure mechanism of the materials.
TESSIER: Journal of Applied Physics, Vol.111(2012),p.1
[20] I.PETROV, P.B.BARNA, L.HULTMAN, J.E.GREENE: Journal of Vacuum Science and Technology A, Vol.21(2003)No.5,p.117
JANSSON: Journal of applied Physics,100(2006), p.054303
The H/E and ERP are used to describe the failure mechanism of the materials.
TESSIER: Journal of Applied Physics, Vol.111(2012),p.1
[20] I.PETROV, P.B.BARNA, L.HULTMAN, J.E.GREENE: Journal of Vacuum Science and Technology A, Vol.21(2003)No.5,p.117
JANSSON: Journal of applied Physics,100(2006), p.054303
Online since: March 2013
Authors: Quan Lin Jin
Materials and Design, Vol. 21(2000), p.287-295
[2] B.P.
Journal of Materials processing Technology, Vol. 135(2003), p. 324 [3] Q.
Journal of Iron & Steel Research, Vol.15(2003), p 654 (in Chinese) [4] T.
Hai: Superplastic Constitutive Relation and Its Applications, In: Superplasticity in Advanced Materials, ICSAM.97, edited by A.H.
Transactions of Materials and Heat Treatment, 2011, Vol. 32(2011), p.51 (in Chinese)
Journal of Materials processing Technology, Vol. 135(2003), p. 324 [3] Q.
Journal of Iron & Steel Research, Vol.15(2003), p 654 (in Chinese) [4] T.
Hai: Superplastic Constitutive Relation and Its Applications, In: Superplasticity in Advanced Materials, ICSAM.97, edited by A.H.
Transactions of Materials and Heat Treatment, 2011, Vol. 32(2011), p.51 (in Chinese)
Online since: March 2014
Authors: Mikhail A. Guzev
Rock masses without pre-existing macrocracks can typically be considered materials with only microcracks.
Oparin, Zone disintegration of rocks around underground workings—Part I: Data of in-site observations, Journal of Mining Science. 22 (1986) 157-168
Toupin, Elastic materials with couple stresses, Arch.
Guzev, Thermo-mechanical model of elastic-plastic materials with defect structures, Theoretical and Applied Fracture Mechanics. 33 (2000) 165-171
Guzev, Non-Euclidean models of elastoplastic materials with structure defects, Lambert Academic Publishing, 2010
Oparin, Zone disintegration of rocks around underground workings—Part I: Data of in-site observations, Journal of Mining Science. 22 (1986) 157-168
Toupin, Elastic materials with couple stresses, Arch.
Guzev, Thermo-mechanical model of elastic-plastic materials with defect structures, Theoretical and Applied Fracture Mechanics. 33 (2000) 165-171
Guzev, Non-Euclidean models of elastoplastic materials with structure defects, Lambert Academic Publishing, 2010