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Online since: August 2019
Authors: Natalia Vyacheslavovna Saienko, Dmitriy Vasilevich Demidov, Yuri Viktorovich Popov, Roman Aleksandrovich Bikov, Basheer Younis, Leonid Vladimirovich Saienko
Introduction
Water-based polymer dispersions are widely used in construction for thermal insulation and decorative and protective material for stucco facades finishing [1-3].
Materials and Methods Styrene-acryl dispersion of ACRONAL® 290 D, produced by BASF (non-volatile compounds content – 50 % wt, pH 7.5-9.0, average particle size about 100 nm, viscosity at 23 °C (ISO 3219, DIN 53019) at shear rate – 100 s-1, 7-15 mPa×s) was used as a paste film thickness.
Skorokhodova, Water-dispersions acrylic paint and varnish materials for construction purposes, Moscow, 2003
Lobkovsky, Water-dispersion paints for protection against corrosion, Russian Coatings Journal. (2011) 44-47
Butskyi, Matec Web of Conferences, EDP Sciences, (230) (2018) 03017
Materials and Methods Styrene-acryl dispersion of ACRONAL® 290 D, produced by BASF (non-volatile compounds content – 50 % wt, pH 7.5-9.0, average particle size about 100 nm, viscosity at 23 °C (ISO 3219, DIN 53019) at shear rate – 100 s-1, 7-15 mPa×s) was used as a paste film thickness.
Skorokhodova, Water-dispersions acrylic paint and varnish materials for construction purposes, Moscow, 2003
Lobkovsky, Water-dispersion paints for protection against corrosion, Russian Coatings Journal. (2011) 44-47
Butskyi, Matec Web of Conferences, EDP Sciences, (230) (2018) 03017
Online since: November 2014
Authors: M. Fadhil, M.S. Aris, A.H. Abbas, A.B.A. Ibrahim, N. Aniza
Introduction
Gas–solid bubbling fluidized beds have been widely used in Industry, and their applications often involve the mixture of bed materials of different sizes, shapes and densities for an identified fuel source.
Liu, “CFD simulation of hydrodynamic characteristics in a multiple-spouted bed,” Chemical Engineering Science, vol. 80, 2012, pp. 365–379
Anantharaman, “Hydrodynamic studies on three-phase fluidized bed using CFD analysis,” Chemical Engineering Journal, vol. 155, 2009, pp. 207–214
Johnsson, “Biomass mixing in a fluidized bed biomass gasifier for hydrogen production,” Chemical Engineering Science, 62 (2007) 636-643
Part II Comparison between experiments and numerical simulation via Digital Image Analysis Technique,” Chemical Engineering Journal, vol. 148, 2009, pp. 145-163.
Liu, “CFD simulation of hydrodynamic characteristics in a multiple-spouted bed,” Chemical Engineering Science, vol. 80, 2012, pp. 365–379
Anantharaman, “Hydrodynamic studies on three-phase fluidized bed using CFD analysis,” Chemical Engineering Journal, vol. 155, 2009, pp. 207–214
Johnsson, “Biomass mixing in a fluidized bed biomass gasifier for hydrogen production,” Chemical Engineering Science, 62 (2007) 636-643
Part II Comparison between experiments and numerical simulation via Digital Image Analysis Technique,” Chemical Engineering Journal, vol. 148, 2009, pp. 145-163.
Online since: June 2013
Authors: Bin Sun
[10] TANG Yangshan, WANG Fengjiao, The development of urban road car collision accident analysis system [J] Liaoning University of Technology (Natural Science Edition) Journal of 2011.1
[11] XU Lunhui, LUO Qiang, WU Jianwei, The research of car-following model based on the minimum safety distance [J] Highway Traffic Science and Technology 2010
Journal of automotive safety and energy, 2012.1
Visual Basic multi-function materials [M].
[11] XU Lunhui, LUO Qiang, WU Jianwei, The research of car-following model based on the minimum safety distance [J] Highway Traffic Science and Technology 2010
Journal of automotive safety and energy, 2012.1
Visual Basic multi-function materials [M].
Online since: March 2013
Authors: Ai Jun Yao, Chao Mei, Huan Fang Chen
According to the computed region’s material properties provided by geological exploration report, The soil is simplified and divided into 5 layers.
Stress-strain of soil and material both vary in elastic-plastic range.
References [1] Aijun Yao, Ruide Xiang, Chaoyang Heng: Chinese Journal of Underground Space and Engineering.
(in Chinese) [2] Feng Wang, Yuannian Deng, Mingnian Wang: Chinese Journal of Computational Mechanics.
(in Chinese) [8] Shuwei Luo, Yan Fu: Science &Technology Information.( 2008), p. 536.
Stress-strain of soil and material both vary in elastic-plastic range.
References [1] Aijun Yao, Ruide Xiang, Chaoyang Heng: Chinese Journal of Underground Space and Engineering.
(in Chinese) [2] Feng Wang, Yuannian Deng, Mingnian Wang: Chinese Journal of Computational Mechanics.
(in Chinese) [8] Shuwei Luo, Yan Fu: Science &Technology Information.( 2008), p. 536.
Online since: March 2014
Authors: Oleg B. Vitrik, Aleksandr A. Kuchmizhak, A.G. Savchuk, Y.N. Kulchin
However, its low optical transmittance through the exit nanoaperture (~10-6 at the aperture diameter D = 50 nm) [6] decreases the transmitted intensity well below the modification threshold for most of materials.
Acknowledgements The authors from Institute for Automation and Control Process of the Far Eastern Branch of Russian Academy of Sciences are acknowledging a partial support from Russian Foundation for Basic Research (Project №11-02-00393-а, No. 13-02-0648-a and No.13-02-12405-ofi_m) and from Far Eastern Branch of Russian Academy of Science (Projects №12-02-P24-07, №13-NTP-I-05 and №13-III-B-02-010).
Zenobi, Journal of Microscopy 194 (1999) 378
Komvopoulos, Journal of Applied Physics 97 (2005) 104319
Acknowledgements The authors from Institute for Automation and Control Process of the Far Eastern Branch of Russian Academy of Sciences are acknowledging a partial support from Russian Foundation for Basic Research (Project №11-02-00393-а, No. 13-02-0648-a and No.13-02-12405-ofi_m) and from Far Eastern Branch of Russian Academy of Science (Projects №12-02-P24-07, №13-NTP-I-05 and №13-III-B-02-010).
Zenobi, Journal of Microscopy 194 (1999) 378
Komvopoulos, Journal of Applied Physics 97 (2005) 104319
Online since: July 2011
Authors: Jian Cheng, Yi Min Wei, Xin Xiong, Chun Biao Gan, Shi Xi Yang
Acknowledgements
This work was supported by grants from the National High Technology Research and Development Program of China (863 Program) (No. 2008AA04Z410)and the National Natural Science Foundation of China (No. 11072214)
References
[1] Lou Jianzhong.
Research on monitoring and fault diagnostic system of turbine-generator [C]// Proceedings of the International Symposium on Electrical Insulating Materials.
Chinese Journal of Scientific Instrument, 2007, 28 (4): 150-152
Journal of Zhejiang University (Engineering Science), 2004,38(4): 447-452
Research on monitoring and fault diagnostic system of turbine-generator [C]// Proceedings of the International Symposium on Electrical Insulating Materials.
Chinese Journal of Scientific Instrument, 2007, 28 (4): 150-152
Journal of Zhejiang University (Engineering Science), 2004,38(4): 447-452
Online since: October 2013
Authors: Miao Fu, Jian Bin Xie, Chang Chang Wu, Deng Feng Hu
Acknowledgements
The project was supported by National Natural Science Foundation of China (grant No.51264037, No.60963026, No.61163061), the Application Basic Research Fund of Yunnan Province (grant No.2011FB010, No.2012FB117), and the Key Projects of Scientific Research Foundation of Yunnan Provincial Education Department (grant No.2011Z014).
[3] Wang Xiugen: Journal of Jiangnan University (Natural Science Edition), Vol.8, No.2 (2009), p. 218-222 [In Chinese]
[5] Li Li, Peng Yuancheng, Long Xiaohong, Liao Ping: Journal of China University of Geosciences, Vol. 16, No.1 (2005), p.72-78
[6] Ji Yao, Jiaquan Wu, Liang Cao, Xiaoyu Cheng, Kun Ma: Advanced Materials Research, Vols. 255-260, (2011), p.183-187
[3] Wang Xiugen: Journal of Jiangnan University (Natural Science Edition), Vol.8, No.2 (2009), p. 218-222 [In Chinese]
[5] Li Li, Peng Yuancheng, Long Xiaohong, Liao Ping: Journal of China University of Geosciences, Vol. 16, No.1 (2005), p.72-78
[6] Ji Yao, Jiaquan Wu, Liang Cao, Xiaoyu Cheng, Kun Ma: Advanced Materials Research, Vols. 255-260, (2011), p.183-187
Online since: May 2012
Authors: Shi Hai Chen, Wei Zhang
Besides, Anderson summarized the relationship between the millisecond interval and the vibration frequency through many engineering blasting materials and illustrated it with gray image[6].
Acknowledgements This research is funded by the National Natural Science Foundation(No. 50878123), Qingdao Scientific and Technological Development Program of Construction(NO.
Coal Science and Technology 2001; 5: 38-44
Wuhan University of Technology Journal; 2007.
Chinese Journal of Rock Mechanics and Engineering 2005; 7: 17-22.
Acknowledgements This research is funded by the National Natural Science Foundation(No. 50878123), Qingdao Scientific and Technological Development Program of Construction(NO.
Coal Science and Technology 2001; 5: 38-44
Wuhan University of Technology Journal; 2007.
Chinese Journal of Rock Mechanics and Engineering 2005; 7: 17-22.
Online since: July 2011
Authors: Xiao Bin Zhang, Chang Hua Du, Chun Tian Li, Yi Luo
Designing of CO2 Inverter Welding Power for the Mode of
Full-bridge and IGBT Based on DSP
Chuntian Li1, a, Xiaobin Zhang1, b, Yi Luo1, c, Changhua Du1, d
1 College of Material Science and Engineering, Chongqing University of Technology,
No.69 HongGuang Road, Ba’nan District, Chongqing, P.R.
The experiment results and analysis The parameters and conditions of welding experiment are the following: 100% co2 protective gas, the rate of gas-flow is 12 l/min, the speed of wire feed is 4.77 m/min, the welding wire is H08Mn2SiA, the diameter of welding wire is 1.0 mm, the welding speed is 180 mm /min, the experimental material is the low-carbon steel panel, with 5 mm in thickness, the arc voltage Uf is 19.5V and the welding current If is about 145A.
Welding Journal, 1993, 7(21):25~29
Journal of Shanghai Jiao tong University, 2004, 38(7):1076-1980
Mumaw, Portable and Intelligent Stud Welding Inverter for Automotive and Sheet Metal Fabrication[J];Lecture Notes in Control and Information Sciences, 2007, Volume 362, Robotic Welding, Intelligence and Automation, Pages 367-374.
The experiment results and analysis The parameters and conditions of welding experiment are the following: 100% co2 protective gas, the rate of gas-flow is 12 l/min, the speed of wire feed is 4.77 m/min, the welding wire is H08Mn2SiA, the diameter of welding wire is 1.0 mm, the welding speed is 180 mm /min, the experimental material is the low-carbon steel panel, with 5 mm in thickness, the arc voltage Uf is 19.5V and the welding current If is about 145A.
Welding Journal, 1993, 7(21):25~29
Journal of Shanghai Jiao tong University, 2004, 38(7):1076-1980
Mumaw, Portable and Intelligent Stud Welding Inverter for Automotive and Sheet Metal Fabrication[J];Lecture Notes in Control and Information Sciences, 2007, Volume 362, Robotic Welding, Intelligence and Automation, Pages 367-374.
Online since: March 2020
Authors: S.N. Borychev, N.V. Byshov, I.S. Arapov, I.A. Uspenskiy, D.G. Churilov, Yu.A. Stekolnikov, S.D. Polischuk
Materials and Methods
The current yield of chromium was estimated by a gravimetric method on samples of steel 10, 20, 30 HGSA during electrolysis in low-concentration electrolytes with the following composition:
1.5 g / l H2SO4 + 150 g / l CrO3 + 1 g / l crystal violet (CF) or indigo depending on precipitation conditions.
Sannikov, Poly-thematic network electronic scientific journal of Kuban State Agrarian University 133 (2017) 173-185
Sevostyanov, Chromium plating on non-stationary modes Kiev Science Dumka, 1992
Churilov, Poly-thematic network electronic scientific journal of Kuban State Agrarian University 82 (2012) 232-258
Tech. science 1 (2017) 303-306
Sannikov, Poly-thematic network electronic scientific journal of Kuban State Agrarian University 133 (2017) 173-185
Sevostyanov, Chromium plating on non-stationary modes Kiev Science Dumka, 1992
Churilov, Poly-thematic network electronic scientific journal of Kuban State Agrarian University 82 (2012) 232-258
Tech. science 1 (2017) 303-306