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The 145 papers are grouped as follows:
Chapter 1: Advanced Materials Engineering and Processing Technologies;
Chapter 2: General Mechanical Engineering and Applied Mechanics;
Chapter 3: Instrumentation, Measurement Technologies, Analysis and Methodology;
Chapter 4: Electrical Engineering and Designing of Circuits;
Chapter 5: Mechatronics, Control and Automation of Manufacturing;
Chapter 6: Communication, Processing of Signal and Data, Information Technologies;
Chapter 7: New Technologies, Methods and Technique in Resources and Civil Engineering;
Chapter 8: Product Design and Industrial Engineering Keyword: Advanced Materials, Materials Processing, General Mechanical Engineering and Applied Mechanics; Instrumentation, Measurement Technologies, Electrical Engineering, Mechatronics, Processing of Signal and Data, Civil Engineering; Product Design and Industrial Engineering

This volume contains papers introduced at the 8th International Conference on Mechanical Engineering, Materials Science and Civil Engineering (ICMEMSCE 2020), which was held on November 23-24, 2020 (virtual), Bangkok, Thailand.
Collected papers reflect the last research results and engineering solutions in the area of materials science and materials processing technologies for the various branches of modern production.

Based on MIDAS/CIVIL the Anchorage of Mass Concrete Temperature Field and Stress Field Simulation Analysis Ming Ru Zhou1, a, Qiong Fei Shen2, b ,Zhao Ning Zhang3, c,Hong Sheng Li 4, d, Zhong Yu Guo 5,e , and Zheng Bo Li 6, f 1, 2, 3,5,6 School of Civil Engineering, Lanzhou University of Technology, Lanzhou, 730050, China; 4 CCCC First Highway First Engineering Co, Ltd,Beijing,102205,China azhoumr@lut.cn, bfakers@sina.com Keywords: Anchorage of mass concrete, Stratified pouring, Natural cooling, MIDAS/CIVIL Abstract: Based on the foundation of heat conduction equation, this paper analyses the Yellow River bridge liujiaxia anchorage of mass concrete temperature field and stress field in the natural cooling and stratified pouring time interval for 7 days to circumstances with the MIDAS/CIVIL finite element software.
[3] P.C Yang,Z.C Li.Based on the MIDAS/CIVIL C40 Large Volume Concrete Construction Simulation Analysis[J].
Highway Engineering, Vol.2(2012), No.6,p.136 ~ 138. 2012(2)：136-138
Water Resources and Hydropower Engineering, Vol.1(2011), No.4,p.41 ~ 43
[5] C.R Li and J.L Du.The application of MIDAS/CIVIL software in mass concrete pile cap hydration heat control[J].Shang Dong Jiao Tong Ke Ji, Vol.1(2011), No.7,p.58 ~ 61

Study on the Experiment Teaching Reform of Civil Engineering Huafeng Deng1, a, Min Zhu1, b, Lehua Wang1, c and Yisheng Huang1, d 1College of Civil Engineering & Architecture, China Three Gorges University, Yichang 443002, China adhf8010@126.com, b514385321@qq.com, c635485@qq.com, d516404161@qq.com Keywords: experiment teaching reform; talents training; creative ability Abstract.
With the rapid development of the civil engineering construction and new type building materials, the obsolete and shortage experiment contents were far behind the steps of high development speed of the civil engineering.
Therefore, the reformation of experiment teaching system and course content in the civil engineering specialty must be conducted.
Experiment Teaching Reform In Civil Engineering Structural Laboratory[J].
[4] DONG Wuzhong, CHAO Guohui.Tentatine Study on Experimental Teaching Reform of Civil Engineering Speciality[J].

The aim of 2016 the 4th International Conference on Mechanical Engineering, Materials Science and Civil Engineering (ICMEMSCE2016, November 19-20, 2016 Sanya, China) is to present the latest research results and solutions in the materials science for different application areas.
We hope this collection of papers will be useful for engineers and scientists whose activities are related to the development and application of modern materials and processing technologies.

Lord 1, b 1 National Physical Laboratory, Hampton Road, Teddington, Middlesex, TW11 0LW, UK a nick.mccormick@npl.co.uk, b jerry.lord@npl.co.uk Keywords: digital image correlation, DIC, in-situ, crack measurement, civil engineering Abstract.
The paper describes recent use of Digital Image Correlation (DIC) for in-situ measurements of deformation and cracking of large civil engineering structures like bridges and power plant.
There are examples of DIC being used for component testing of civil engineering structures [4] but relatively few examples where measurements have been made out of the lab or in-situ [5, 6].
Weathering of common civil engineering materials, like concrete, provides surfaces with sufficient texture and randomness to allow full field measurements to be made, and the NPL DIC code has been designed to allow for variations in lighting between images.
Hild.: Canadian Journal of Civil Engineering Vol. 33 (2006), p. 1418

Experimental Study on Fire Resistant of Shield Tunnel Segment in Civil Engineering Xinjun Guo a, Zhisheng Xu b, Yan Zhang c 1 Disaster Prevention Science and Safety Technology Institution, School of Civil Engineering, Central South University, Changsha 410075, Hunan, China a xinjun-guo@vip.163.com, b xuzhsh82@163.com Key words: Fire resistant, Shield tunnel segment, Temperature distribution, Deflection, Residual bearing capacity Abstract.
Fire resistant behavior is one the main properties of shield tunnel segment in civil engineering.
Introduction Fire is one of the main disasters for building structure in civil engineering.
Journal of the China Institute of Civil and Hydraulic Engineering, 1996, 8(3): 371-386
Journal of Fire Protection Engineering 2008,18:245-274

Collection of selected, peer reviewed papers from the 2013 International Conference on Civil, Architecture and Building Materials (3rd CEABM2013), May 24-26, 2013, Jinan, China.

The 724 papers are grouped as follows:
Chapter 1: Geotechnical Engineering;
Chapter 2: Geological Engineering;
Chapter 3: Tunnel, Subway and Underground Facilities;
Chapter 4: Seismic Engineering;
Chapter 5: Disaster Prevention and Mitigation;
Chapter 6: Hydraulic Engineering and Hydrology;
Chapter 7: Coastal Engineering;
Chapter 8: Construction Technology;
Chapter 9: Water Supply and Drainage Engineering;
Chapter 10: Heating, Gas Supply, Ventilation, Air Conditioning Works and Daylighting Design;
Chapter 11: Computational Mechanics;
Chapter 12: Surveying Engineering;
Chapter 13: Cartography and Geographic Information System;
Chapter 14: CAD/CAE/Computer Technology.

Collection of selected, peer reviewed papers from the 2014 2nd International Conference on Structural Engineering, Vibration and Aerospace Engineering (SEVAE 2014), November 15-16, 2014, Shenzhen, China.

The 70 papers are grouped as follows:
Chapter 1: Structural Engineering and Materials, Civil Engineering;
Chapter 2: Vibration Engineering and Noise, Analysis and Dynamics;
Chapter 3: Aerospace and Aircraft Engineering, Testing and Fault Diagnosis, Computational Methods;
Chapter 4: Disaster Prevention and Mitigation Keyword: Structural Engineering, Vibration Engineering, Aerospace Engineering

Dynamic Analysis on PCI Girder Bridge Made Suangga1,a,Santi2,b 1,2Civil Engineering Departement, Faculty of Engineering, Bina Nusantara University, Jl.
While the value of the natural frequency of the Midas/Civil program for single girder at 6.16 Hz, and for multi-girder of 5.93 Hz.
Results and Discussion Comparison of Natural Frequency Manually and Midas/Civil The natural frequency research results have been processed with manual calculations and Midas Civil can be seen in the table below.
Faculty of Engineering, BrawijayaUniversity.
Dynamic of Structure : Theory and Applications to Earthquake Engineering (Second Edition).