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Online since: April 2020
Authors: Sergey Y. Radchenko, I.M. Gryadunov, Pavel G. Morrev, Kostya I. Kapyrin, Vladimir A. Gordon, Daniil O. Dorokhov
Shaw, Comparison between shot peening and surface nanocrystallization and hardening processes, Materials Science and Engineering A. 463 (2007) 46–53
Ishikawa, Measurement method for stress–strain curve in a super-large strain range, Materials Science & Engineering A. 600 (2014) 82–89
Fontanari, Evaluation of the stress–strain curve of metallic materials by spherical indentation, International Journal of Solids and Structures. 43 (2006) 2441–2459
Glezer, Creation principles of new-generation multifunctional structural materials, Advances in Physical Sciences. 55 (2012) 522–529. )
Gordon, On construction of SPD stress-strain curve for bronze Cu85-Pb5-Sn5-Zn5, Materials Science and Engineering: A, in press, available online 11 May 2019.
Ishikawa, Measurement method for stress–strain curve in a super-large strain range, Materials Science & Engineering A. 600 (2014) 82–89
Fontanari, Evaluation of the stress–strain curve of metallic materials by spherical indentation, International Journal of Solids and Structures. 43 (2006) 2441–2459
Glezer, Creation principles of new-generation multifunctional structural materials, Advances in Physical Sciences. 55 (2012) 522–529. )
Gordon, On construction of SPD stress-strain curve for bronze Cu85-Pb5-Sn5-Zn5, Materials Science and Engineering: A, in press, available online 11 May 2019.
Online since: November 2012
Authors: Qing Hai Li, Dong Xu Li, Hong Bin Guo, Yi Zhang, Quan Zhou
Introduction
PCM as a new building material has become a world-wide research hotspot of building materials today [1-7].
Experimentation Materials.
Lu: Materials Review, Vol. 25 (2011) No.17, P.315-318
Cheng: Journal of Functional Materials, Vol. 41 (2010) No.1, P. 180-183
Ge: Journal of University of Science and Technology of China, Vol. 24 (1995) No.4, P.474
Experimentation Materials.
Lu: Materials Review, Vol. 25 (2011) No.17, P.315-318
Cheng: Journal of Functional Materials, Vol. 41 (2010) No.1, P. 180-183
Ge: Journal of University of Science and Technology of China, Vol. 24 (1995) No.4, P.474
Online since: January 2021
Authors: Lars Erik Rännar, Mikael Bäckström, Carlos Botero, Andrey Koptyug, William Sjöström, Anton S. Tremsin
Takahashi, Development of a New Powder/Solid Composite for Biomimic Implant Materials by Electron-Beam Additive Manufacturing, Materials Science Forum 879 (2017) 1361-64.doi.org/10.4028/www.scientific.net/MSF.879.1361
[7] Y.
Wicker, Effect of Melt Scan Rate on Microstructure and Macrostructure for Electron Beam Melting of Ti-6Al-4V, Materials Sciences and Applications 3 (2012), 259-264.
Lider, Influence of beam current on microstructure of electron beam melted Ti-6Al-4V alloy, Progress in Natural Science: Materials International 29 (2019) 440-446.
Bäckström, Compositionally-tailored steel-based materials manufactured by electron beam melting using blended pre-alloyed powders, Materials Science and Engineering: A, 13 (2020) 138587.
Babu, "Site specific control of crystallographic grain orientation through electron beam additive manufacturing", Materials Science and Technology 31 (2015) 931-938
Wicker, Effect of Melt Scan Rate on Microstructure and Macrostructure for Electron Beam Melting of Ti-6Al-4V, Materials Sciences and Applications 3 (2012), 259-264.
Lider, Influence of beam current on microstructure of electron beam melted Ti-6Al-4V alloy, Progress in Natural Science: Materials International 29 (2019) 440-446.
Bäckström, Compositionally-tailored steel-based materials manufactured by electron beam melting using blended pre-alloyed powders, Materials Science and Engineering: A, 13 (2020) 138587.
Babu, "Site specific control of crystallographic grain orientation through electron beam additive manufacturing", Materials Science and Technology 31 (2015) 931-938
Online since: October 2018
Authors: Vladimir A. Gol'tsev, V.I. Matyukhin, S.Ya. Zhuravlev
At that quite large amount of fine fraction materials is generated, which are impossible to be used in a cupola furnace considering severe fractional makeup requirements for the charge materials.
Thus the reverse routing of combustion products and charge materials is arranged.
Then ground materials were mixed with the binding agents and water was added.
Archives of metallurgy and materials. 55(4) (2010) 1035-1051
The Canadian Journal of Metallurgy and Materials Science. 45(4) (2013) 395-408
Thus the reverse routing of combustion products and charge materials is arranged.
Then ground materials were mixed with the binding agents and water was added.
Archives of metallurgy and materials. 55(4) (2010) 1035-1051
The Canadian Journal of Metallurgy and Materials Science. 45(4) (2013) 395-408
Online since: July 2011
Authors: Li Wang, Qing Song Wei, Jin Hui Liu, Wen Juan Xie
O’Neill: Journal of Materials Science,Vol. 37(2002), p. 3093-3100
O’Neill: Journal of Materials Science, Vol.39 (2004),p.1195-1205
Asgharzadeh: Materials Science and Technology, Vol.20(2004),p. 1462-1468
Simchi: Materials Science and Engineering A, Vol.428(2006), p. 148-158
Du and Zhang Xie: Journal of Materials Engineering and Performance,Vol. 19(5), 2010,p. 666-671
O’Neill: Journal of Materials Science, Vol.39 (2004),p.1195-1205
Asgharzadeh: Materials Science and Technology, Vol.20(2004),p. 1462-1468
Simchi: Materials Science and Engineering A, Vol.428(2006), p. 148-158
Du and Zhang Xie: Journal of Materials Engineering and Performance,Vol. 19(5), 2010,p. 666-671
Online since: February 2013
Authors: Sheng Hua Zou, Deng Chun Zhang, Wei Yin, Si Zou
Study of dust production mechanisms during the rotary dumping of powdered materials in hemi-enclosed space
Shenghua Zou1,a, Dengchun Zhang1,b, Wei Yin1,c, Si Zou2,d
1School of Energy and Safety Engineering, Hunan University of Science and Technology, Xiangtan, 411201, China
2School of Environment and Architecture, University of Shanghai for Science and Technology, Shanghai, 200000, China
azsh199074@263.net, bdczhang2000@126.com, cbecause2006@vip.sina.com,dzousi99@163.com
Keywords: hemi-enclosed space; powered materials; rotary dumping; mechanism of dust production
Abstract.
The mission of its raw material workshop is to provide raw materials to the sintering production line.
At first the materials are carried by train to the dumper, and then the powered materials are taken into the storage from the dumper.
The materials in the falling process occupy portion of capacity in the mine warehouse.
(2)The airflow volume during the rolling of the train is pertinent to the mass and volume of the materials, the height and velocity of the materials (including the rotary velocity of the container and dumping velocity of the materials), and the surface area of the container
The mission of its raw material workshop is to provide raw materials to the sintering production line.
At first the materials are carried by train to the dumper, and then the powered materials are taken into the storage from the dumper.
The materials in the falling process occupy portion of capacity in the mine warehouse.
(2)The airflow volume during the rolling of the train is pertinent to the mass and volume of the materials, the height and velocity of the materials (including the rotary velocity of the container and dumping velocity of the materials), and the surface area of the container
Online since: March 2008
Authors: Jainagesh A. Sekhar, Michael C. Connelly
Activity data was related to the
yearly production of specific raw materials.
All other materials were done in a similar manner.
South African Journal of Science 94 (2) (1998), pp. 50-53
"Linking Productivity Analysis and Innovation for Materials and Energy.
Shields: Economic Growth and the Demand for Construction Materials.
All other materials were done in a similar manner.
South African Journal of Science 94 (2) (1998), pp. 50-53
"Linking Productivity Analysis and Innovation for Materials and Energy.
Shields: Economic Growth and the Demand for Construction Materials.
Online since: December 2010
Authors: Kun He Fang, Hua Shan Yang, Sheng Jin Tu
Pozzolanic Reaction of Supplementary Cementitious Materials and Its Effects on Strength of Mass Concrete
Huashan Yanga, Kunhe Fangb and Shengjin Tuc
State Key Laboratory of Water Resources and Hydropower Engineering Science, Wuhan 430072, People’s Republic of China
axlhs008@yahoo.com.cn, bkhfang@whu.edu.cn, c zyltsj@126.com
Keywords: Supplementary Cementitious Materials; Pozzolanic Activity; Phosphorous Slag Powder; Fly Ash; Mass Concrete
Abstract.
Introduction Supplementary cementitious materials (SCMs), such as fly ash (FA), silica fume (SF) and ground granulated blast furnace slag (GGBS) etc. have been widely used as pozzolanic materials in construction industry.
One way of recycling the slag is to seek building materials applications.
Experimental Materials.
Wu: Journal of Building Materials Vol. 1 (1998), p. 118 (In Chinese) [9] S.P.
Introduction Supplementary cementitious materials (SCMs), such as fly ash (FA), silica fume (SF) and ground granulated blast furnace slag (GGBS) etc. have been widely used as pozzolanic materials in construction industry.
One way of recycling the slag is to seek building materials applications.
Experimental Materials.
Wu: Journal of Building Materials Vol. 1 (1998), p. 118 (In Chinese) [9] S.P.
Online since: January 2011
Authors: Zhe Liu, Ke Jing Li
Characteristic Analysis of Textile Materials Based on Pre-judgment Mechanism
Liu Zhe1,a Li Kejing1,b
1 Zhongyuan University of Technology, Zhengzhou, China
axyliuzhe@163.com
btougaoxinxiang@163.com
Keywords: Characteristic, Analysis, Textile Materials, Pre-judgment Mechanism
Abstract: Aiming at existing some problems, such as large calculation, not extensive category of defect recognition, and not accuracy of recognition result, this paper reanalyzes characteristic construction’s proceed of moving image by human vision, and proposes a new ‘super-fuzzy’ characteristic model of fabric based on pre-judgment mechanism.
Journal of Huazhong University of Science and Technology.vol.34-6(2006),p.25
Journal of the Textile Institute. vol.98-4,p.355
[9] D.P.Brzakovi,P.R.Bakic,et al: A generalized development environment for inspection of web materials.
Journal of China Textile University,vol.26-1(2000),p.6
Journal of Huazhong University of Science and Technology.vol.34-6(2006),p.25
Journal of the Textile Institute. vol.98-4,p.355
[9] D.P.Brzakovi,P.R.Bakic,et al: A generalized development environment for inspection of web materials.
Journal of China Textile University,vol.26-1(2000),p.6
Online since: January 2020
Authors: Vishwanath Pooneeth, Xu He, Hai Hang Wang, Mlela Masoud Kamoleka
Email: railway_dragon@163.com
Keywords: Cavitation, CFD, Bio-inspired, Multiscale molecular modeling, Optimization, Rubber-like materials.
The commercial software, Materials Studio v7.0 of Accelrys Inc.[4], was used to carry out the molecular simulations (Discover, Amorphous Cell, and Forcite module).
Journal of Adhesion Science and Technology, 22(13), 1387-1400. doi:10.1163/156856108X305732 [4] BIOVIA, D.
Retrieved from http://3dsbiovia.com/products/collaborative-science/biovia-materials-studio/ [5] Liu, H., Li, Y., E Krause, W., Rojas, O., & Pasquinelli, M. (2012).
The Journal of Chemical Physics, 140(11), 114704. doi:10.1063/1.4868641
The commercial software, Materials Studio v7.0 of Accelrys Inc.[4], was used to carry out the molecular simulations (Discover, Amorphous Cell, and Forcite module).
Journal of Adhesion Science and Technology, 22(13), 1387-1400. doi:10.1163/156856108X305732 [4] BIOVIA, D.
Retrieved from http://3dsbiovia.com/products/collaborative-science/biovia-materials-studio/ [5] Liu, H., Li, Y., E Krause, W., Rojas, O., & Pasquinelli, M. (2012).
The Journal of Chemical Physics, 140(11), 114704. doi:10.1063/1.4868641