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Online since: February 2014
Authors: Xin Can Li
Acknowledgement
This research reported in the paper is supported by Research Center of Green manufacturing and Energy-Saving &Emission Reduction Technology in Wuhan University of Science and Technology (B1004) and National Natural Science Foundation of China (51105283).
Material&HeatTreatmen, 2010(6):151-154
Journal of Shanghai Jiaotong University (Science), 2011, 16(2): 137-140 [4] A.
A Numerical Investigation into the Cooling Curves of Stainless Steel Porous Materials for the Quenching Process[J].
Arabian Journal for Science and Engineering, 2011, 36(2):339-354 [5] Brahim Bourouga, Jerome Gilles.
Material&HeatTreatmen, 2010(6):151-154
Journal of Shanghai Jiaotong University (Science), 2011, 16(2): 137-140 [4] A.
A Numerical Investigation into the Cooling Curves of Stainless Steel Porous Materials for the Quenching Process[J].
Arabian Journal for Science and Engineering, 2011, 36(2):339-354 [5] Brahim Bourouga, Jerome Gilles.
Online since: December 2010
Authors: Jing Hu, Barton C. Prorok, Cai Liang, Chinthaka Gooneratne, Jürgen Kosel
Annealing Effect on the Performance of Sputtering Deposited Metglas Thin Films
Cai Liang 1,a, Jing Hu 2, b, Bart Prorok 3, c, Chinthaka Gooneratne 1, d,
Jürgen Kosel 1, e
1 Physical Science and Engineering Division, King Abdullah University of Science and Technology, Saudi Arabia
2 Materials Science and Engineering, Changzhou University, China
3 Materials Engineering, Auburn University, USA
a cai.liang@kaust.edu.sa, b hujing1@cczu.edu.cn, c prorobc@auburn.edu
d Chinthaka.Gooneratne@kaust.edu.sa, e jurgen.kosel@kaust.edu.sa
Key words: Magnetic sensors, Thin films, Microfabrication, Annealing
Abstract: Magnetostrictive sensors based on ferromagnetic materials have been widely used in detecting chemicals and biological species.
The MetglasTM 2826MB is one of the bulk strip materials that is employed as the sensor platform.
After the deposition process, the materials cool down to room temperature and an overall compressive stress is developed in the sensor materials.
In order to prevent oxidation of the materials, a vacuum annealing process was applied.
Prorok: submitted to Journal of Microelectromechanical Systems (2010) [6].
The MetglasTM 2826MB is one of the bulk strip materials that is employed as the sensor platform.
After the deposition process, the materials cool down to room temperature and an overall compressive stress is developed in the sensor materials.
In order to prevent oxidation of the materials, a vacuum annealing process was applied.
Prorok: submitted to Journal of Microelectromechanical Systems (2010) [6].
Online since: October 2015
Authors: Luba Bicejova, Miroslav Gombar, Ján Kmec, Stefan Valencik, Tomas Stejskal
Gašpár, Experimental Assessment of Roughness Changes in the Cutting Surface and Microhardness Changes of the Material S 355 J2 G3 after Being Cut by Non-Conventional Technologies, Advanced Materials Research 314-316 (2011) 1944-1947
Bičejová, Abrasive kind and granularity changes affects to water jet technology head vibration during cutting HARDOX material thickness alternation process, Applied Mechanics and Materials 308 (2013) 75-79
Bičejová, Technological head tilt angle influence analysis to generation of vibration during ceramics material machining by means of AWJ, Applied Mechanics and Materials 616 (2014) 175-182
Fabian, Analysis of technological head working pressure, tilt angle and shift impact to its vibrations using AWJ, Applied Mechanics and Materials 616 (2014) 159-166
Pavlenko, Design strength calculation of cycloidal lantern gear, in: BarSU Herald Scientific and practical journal: Physical and Mathematical Sciences: Engineering Sciences 1 (2013) 58-65
Bičejová, Abrasive kind and granularity changes affects to water jet technology head vibration during cutting HARDOX material thickness alternation process, Applied Mechanics and Materials 308 (2013) 75-79
Bičejová, Technological head tilt angle influence analysis to generation of vibration during ceramics material machining by means of AWJ, Applied Mechanics and Materials 616 (2014) 175-182
Fabian, Analysis of technological head working pressure, tilt angle and shift impact to its vibrations using AWJ, Applied Mechanics and Materials 616 (2014) 159-166
Pavlenko, Design strength calculation of cycloidal lantern gear, in: BarSU Herald Scientific and practical journal: Physical and Mathematical Sciences: Engineering Sciences 1 (2013) 58-65
Online since: March 2014
Authors: Dong Liu, Yan Hui Yang, Jian Guo Wang, Guo Jie Gao
Journal of Materials Processing Technology. 2008, 199: 140~149
[3] C.M.
Materials Science. 1979, 13(3-4): 187~194 [4] H.
Journal of Materials Processing Technology. 211 (2011) 433–440 [6] G.
Journal of Materials Processing Technology166(2005)423–429 [7] YANG YanHui; LIU Dong; LUO Zijian.
Journal of Aeronautical Materials. 2012, 23(1): 25-29 [8] YANG YanHui.
Materials Science. 1979, 13(3-4): 187~194 [4] H.
Journal of Materials Processing Technology. 211 (2011) 433–440 [6] G.
Journal of Materials Processing Technology166(2005)423–429 [7] YANG YanHui; LIU Dong; LUO Zijian.
Journal of Aeronautical Materials. 2012, 23(1): 25-29 [8] YANG YanHui.
Online since: July 2014
Authors: Larisa Stsnislavovna Grigoryeva, Viktor Isaevich Brodsky, Pavel Pavlovich Oleinik
Determining the degree of mobility of building systems
Oleinik Pavel Pavlovich1, Grigorieva Larisa Stanislavovna2
and Brodsky Viktor Isaevich 3,
1 Doctor of Technical Sciences, The Department of Technology and building organization of production, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation
2 Doctor of Chemical Sciences, The Department of Composite Materials Technology and Applied Chemistry, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation
3 Ph.D, The Department of Technology and building organization of production, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation
pehel@yandex.ru
Keywords: Construction of buildings, mobility, system, labour force, material and technical resources, stages, organisations, buildings, moved, permanent constructions, intensity.
Mobility is a key feature of the building system that characterizes the industry's ability to carry out a rapid concentration of manpower and material resources in the area of construction (reconstruction) in order to implement the planned commissioning of facilities and production capacity.
This property is connected to the constant mobility of labor resources, relocation from one object to the construction of machines and mechanisms, delivery structures and materials, the use of mobile buildings.
Brodsky, Methods for Determining the Duration of Construction of Objects: submitted to Journal of Industrial and Civil Construction (2012)
Mobility is a key feature of the building system that characterizes the industry's ability to carry out a rapid concentration of manpower and material resources in the area of construction (reconstruction) in order to implement the planned commissioning of facilities and production capacity.
This property is connected to the constant mobility of labor resources, relocation from one object to the construction of machines and mechanisms, delivery structures and materials, the use of mobile buildings.
Brodsky, Methods for Determining the Duration of Construction of Objects: submitted to Journal of Industrial and Civil Construction (2012)
Online since: August 2013
Authors: Wei Qin Wu, Yuan Gao, Yan Zhang, Wei Zhang, Cheng Lei Wang, Zhi Kang Ma, Hang Wei Cai
Experimental Procedures
Test Materials.
Test substrate materials were 20steel, 45steel and T8steel, the dimensions was 80mm × 20mm × 2mm (length × width × height), the surface Ra=1.6um after grinding.
Li, etal: Chinese Journal of Rare Metals Vol. 31(2007), p. 279-280
[3] Z.H.Li, X.P.Liu, Z.Xu: Journal of Applied Sciences Vol. 18(2000), p.183-185
[4] D.Feng: Metal Physics(Science Press, China 2000)
Test substrate materials were 20steel, 45steel and T8steel, the dimensions was 80mm × 20mm × 2mm (length × width × height), the surface Ra=1.6um after grinding.
Li, etal: Chinese Journal of Rare Metals Vol. 31(2007), p. 279-280
[3] Z.H.Li, X.P.Liu, Z.Xu: Journal of Applied Sciences Vol. 18(2000), p.183-185
[4] D.Feng: Metal Physics(Science Press, China 2000)
Online since: September 2017
Authors: Kozo Taguchi, Kanta Sugii, Kazuaki Tamiya
This method can lead to use flexible materials [2].
As a distinctive feature, it happens under DC voltage, materials move along the line of electric force and mobility depends on the electrical charge of peculiar materials.
Journal of Power Sources, pp. 4859–4864, 2011
Science, PP. 295-298, 2014
Key Engineering Materials, 314, pp. 167-174, 2006
As a distinctive feature, it happens under DC voltage, materials move along the line of electric force and mobility depends on the electrical charge of peculiar materials.
Journal of Power Sources, pp. 4859–4864, 2011
Science, PP. 295-298, 2014
Key Engineering Materials, 314, pp. 167-174, 2006
Online since: January 2013
Authors: Xiao Xiang Su, Xue Jun Ren, Nyoman Budiarsa, Andrew Norbury, Gareth Bradley
Introduction
Vickers microhardness testing is widely used in testing different types of materials.
Ren: Materials & Design Vol 29(8) (2008), p.1554
Atkinson: Journal Mech.
Henshall: J Materials science Vol. 22 (2003), p.1105
Bradt: Journal of Materials Research Vol. 8 (1993), p.1028
Ren: Materials & Design Vol 29(8) (2008), p.1554
Atkinson: Journal Mech.
Henshall: J Materials science Vol. 22 (2003), p.1105
Bradt: Journal of Materials Research Vol. 8 (1993), p.1028
Online since: December 2014
Authors: Alexander F. Sharovarnikov, Dmitry A. Korolchenko
F. 2,b
Candidate of Technical Sciences, Head of Departmentof Complex Safety in Construction, Moscow State University of Civil Engineering (YaroslavskoyeShosse, 26, Moscow, 129337, Russian Federation; e-mail: ICA_kbs@mgsu.ru)
Doctor of Technical Sciences, Professor of Departmentof Complex Safety in Construction, Moscow State University of Civil Engineering (YaroslavskoyeShosse, 26, Moscow, 129337, Russian Federation; e-mail: ICA_kbs@mgsu.ru)
Key words: extinguishing process; suppression of solid combustible materials and flammable liquids; water drops size; evaporation in a combustion zone; finely dispersed water.
Finely dispersed water with an average drop size smaller than 150 µm has a predominant influence on combustion zone and completely evaporates in it.Water drops larger than 0.5 mm are only partially evaporate in a gas phase and have an influence mainly on a burning surface of solid combustible materials or flammable liquid.
Diffusion combustion of liquids. — Moscow: Academy of Sciences of the USSR, 1961. — 208 p
Mathematical theory of burning and explosion. — Moscow: Science,1980. - 480 p
Journal of Applied Physics, 1944, Vol. 14, no. 7–8, p. 427–437
Finely dispersed water with an average drop size smaller than 150 µm has a predominant influence on combustion zone and completely evaporates in it.Water drops larger than 0.5 mm are only partially evaporate in a gas phase and have an influence mainly on a burning surface of solid combustible materials or flammable liquid.
Diffusion combustion of liquids. — Moscow: Academy of Sciences of the USSR, 1961. — 208 p
Mathematical theory of burning and explosion. — Moscow: Science,1980. - 480 p
Journal of Applied Physics, 1944, Vol. 14, no. 7–8, p. 427–437
Online since: July 2011
Authors: Jian Zhong Ma, Dang Ge Gao, Bin Lü, Jing Zhang
Introduction
Recently, many researchers have paid much attention to the exceptional performance of organic silicon materials [1-3].
Experimental Materials.
Journal of Colloid and Interface Science, Vol. 325 (2008), p. 74-83
Polymeric Materials: Science and Engineering.
Journal of the American Chemical Society, 130 (2008)3690-3704 [4] D.
Experimental Materials.
Journal of Colloid and Interface Science, Vol. 325 (2008), p. 74-83
Polymeric Materials: Science and Engineering.
Journal of the American Chemical Society, 130 (2008)3690-3704 [4] D.