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Based on RFID prefabricated building component design and monitoring system research Jing Wang 1,2,3 1China Construction Eighth Engineering Bureau workstation of postdoctoral scientific research, Shanghai 200135； 2Management science and Engineering in Shanghai Jiao Tong University post-doctoral research station, Shanghai 200240； 3Northwest University of Politics and School of Economics and Management , Xi’an 710063 wjing818@126.com, 719428937@qq.com Key words: RFID; Prefabricated buildings; Component design; Monitoring system Abstract:Long-term since, our country concrete building mainly adopts the construction of the traditional mode of production, design and build extensive, poor operation condition, high labor intensity, large building materials loss and building garbage, construction quality is not stable, the whole life cycle of building energy consumption is high, the low degree of industrialization, and the energy conservation, emission reduction and environmental protection
In recent years, the China construction science research institute of southeast university, tongji university, Harbin institute of technology to study, and other units are made of prefabricated frame structure research.
Caused by the field of materials and mechanical equipment, effective identification RFID reader distance than in without interference.
Acknowledgements 1.54 batch on China postdoctoral science foundation projects "ecological assessment and comprehensive management paradigm of manufacturing supply chain research", number: 2013 m541552. 2.2013 annual shaanxi province social science fund research project "manufacturing and logistics industry linkage development mode study", number: 13 d085. 3.2014 postdoctoral funding annual Shanghai pudong new area of science and technology development fund project "China building industry chain and ecosystem coupling: factor and the model and mechanism study. 4.
Science and technology research and development project "construction production line based on the theory of lean construction theory research and practice", number: 2012-28.

It shows that considering the intermediate principal stress make materials exert material strength better.
By choosing suitable and , theoretical results of eccentric bearing capacity are determined more accurately for different materials.
References [1] Shaohuai Cai: Modern Steel Tube Confined Concrete Structures(Revised Edition)(China Communications Press, Beijing 2007) (in Chinese) [2] Shantong Zhong: CFST High Rise Building(Heilongjiang Science and Technology Press， China 1999) (in Chinese) [3] Guochang Li, Na Xing, Zhonghua Xing: Journal of Shenyang Jianzhu University (Natural Science).
Vol. 25, No. 2 (2009), p. 244(in Chinese) [4] Qingli Wang, Yuan Che, Yifu Gao: Journal of Shenyang Jianzhu University (Natural Science).
Vol. 60, No. 10(2008), p. 735 [6] Guochang Li, Dongxu Hou, Ning Li: Journal of Shenyang Jianzhu University (Natural Science).

As mentioned earlier, the solvencies between the materials are almost negligible, which leads to the formation of an IMC layer at the interface of contact.
Materials Preparation The 6061-aluminum alloy and Q235-mild steel were used as base metal in this study.
International Journal of Advanced Engineering, Management and Science 8 (2022): 7
Materials Today: Proceedings 37 (2021): 531-536
Advances in Materials and Processing Technologies 8, no. 4 (2022): 3794-3821

Study on vehicle speed in Pore Water Pressure of Rigid Pavement Base using Poro-elasticity Haibin Li1,a ,Yanping Sheng2, b 1 Department of Architecture and Civil Engineering ,Xi’an University of Science and Technology, Xi’an, 710054, China 2 School of Materials Science and Engineering,Chang’an University, Xi’an 710064, China; alihaibin1212@126.com bsyp@chd.edu.cn Keywords: Rigid Pavement Base; Poro-elasticity; Pore Water Pressure; Vehicle Speed; Numerical Simulation Abstract: Water in pavement is a major contributor to pavement failure.
The constitutive behavior of porous medium material used in the model is introduced.
Acknowledgement The research work was sponsored by the Western Transportation Construst Science and Technology,China (2006 318 000 05).
Numerical simulation of dynamic pore pressure in asphalt pavement, Journal of Southeast university, Vol 25, 2009pp.79-82
Journal of ShenyangJianzhu University, 22(1): 2006pp25-29

Experimental Materials SEBS3151: PS/EB=32/68, TSRC Corporation, Taiwan; Naphthenic oil, Shanghai DaLiang Chemical Co., Ltd., China; Diphenyl phosphate, WSFR-BDP, Phosphorus content (weight%)>8.9% , Zhejiang Wansheng Chemical Co., Ltd., China; Phosphorus and nitrogen IFR: HS219B, Phosphorus content 23-25%, Nitrogen content 24-26%, Kaifeng chemical industry science and technology development Co., Ltd., China.
European Polymer Journal 2011; 47:153–161
Fire Safety Journal 2009; 44:1010–1014
Chinese Journal of Applied Chemistry 2005;22(8):861-864
European Polymer Journal 2008;44(4):1023-1039.

Xu1 and Yuan-Hua Lin1,b* 1State Key Laboratory of New Ceramics and Fine Processing, School of Materials Science and Engineering, Tsinghua University, Beijing 100084, P.R.China 2The Experimental High School Attached to Beijing Normal University, Beijing 100032, P.R.
[2] Zhao, Y.; Burda, C., Development of plasmonic semiconductor nanomaterials with copper chalcogenides for a future with sustainable energy materials.
Energy & Environmental Science. 5 (2) (2012) 5564-5576
Nature materials. 12 (6) (2013) 512-517
Applied Surface Science. 257 (20) (2011) 8732-8736

Materials and methods Samples description and bacteria isolation.
The sample water content was estimated by drying material at 105ºC overnight.
Journal of General and Applied Microbiology. 1978, 24(4): 199-213
International Journal of Systematic Bacteriology. 1989, 39(3): 224-229
International Journal of Systematic Bacteriology.1987, 37: 463-464.

Study on Transformation Plasticity Behavior of Material SUS420J2 Masafumi Moromasa1 and Dongying Ju2* 1 Department of Electronic and Engineering, Graduate School of Engineering, Saitama Institute of Technology, Fusaiji 1690, Fukaya-city, saitama 369-0293, Japan 2 Saitama Institute of Technology, Fusaiji 1690, Fukaya-city, saitama 369-0293, Japan Corresponding author: dyju@sit.ac.jp Keywords : Transformation Plasticity, Transformation Plasticity coefficient, martensitic transformation Abstract In this paper, in order to study the transformation plasticity behavior of steel materials in heat treatment and other heating manufacturing process, experiment and simulation of heat treatment for SUS420J2 were carried out.
Introduction Stainless steel is used in many different areas of daily life and the field of application is necessary to be improved such as strength of the materials by using heat treatment technology.
However, few kinds of materials are identified, including carbon steels, because the experiments must be repeated under various loads for research on transformation plasticity.
Table.2 shows the chemical components of the material properties database MATEQ which is used in the standard of chemical composition of material SUS420J2 and the simulation.
Tomohiro Tanaka and Tatsuo Inoue, Identification of Transformation Plasticity Coefficient for Some Steels during Pearlite Transformation and the Dependence on Chemical Composition, Journal of the Society of Materials Science, Japan, Vol.57, No.10, pp.1036-1042, Oct.2008

The Research for Work Roll Thermal Deformation of Cold Rolling Mill with Plastic Materials Peng Yu1,a, Shengli Li1,b, Junsheng Wang2,cand Lei Song2 1 LiaoNing University of Science and Technology, AnShan, 114001, P.R.China 2Anshan iron and Steel Group, AnShan, 114001, P.R.China aoykunpen1@163.com, blishengli66@sohu.com, cphdwjs@126.com Keywords: Cold rolling, Thermal deformation model, Plastic deformation, Friction heat In this article, the factors which have influence on the work roll thermal deformation in cold strip rolling and the heat transferring mechanism are discussed.
It is considered that there are three directions, radial,axis and circumference, for heat transferring for work roll thermal deformation with plastic materials.
Summary (1) The friction heat and plastic deformation with plastic materials work model are built for cold strip rolling considering the change of rolling contact arc along strip width direction.
[5] Kong Xiangwang, Li Renlong, Journal of iron and steel research,(2000),12 ,P51-54
Principle and process control of tandem cold rolling, Beijing: Science press, (2009)

This is supported by [17] where the researcher claimed that the repeated use of iron-containing sludge results in decreasing zeta potential as well as accumulation of organic materials embedded in the sludge and is indicated by increasing volatile suspended solid (VSS)/TSS ratio.
Chemical Engineering Journal, 164, (2010) 255-260
Neyens, Fenton peroxidation improves the drying performance of waste activated sludge, Journal of Hazardous Materials, 117, (2005) 161-170
Journal of Environmental Science and Health, Part A Vol. 36 (1) (2001)
Baeyens, A review of classic Fenton’s peroxidation as an advanced oxidation technique, Journal of Hazardous Materials 98 (2003) 33-50