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The 75 papers are grouped as follows:
Chapter 1: Advanced Materials Engineering and Processing Technologies,
Chapter 2: Computing and Information Technology,
Chapter 3: New Technologies, Methods and Technique in Civil Engineering,
Chapter 4: Achievements in Medical and Engineering Sciences Keyword: Advanced Materials Engineering and Processing Technologies; Computing and Information Technology; New Technologies, Methods and Technique in Civil Engineering; Achievements in Medical and Engineering Sciences

Research on Virtual Reality based Civil Aircraft Cabin Customization System Nan Ma 1, a, Hu Liu 1,b, Yongliang Tian 1,c , Jinpeng Bai1,d , and Zhe Wu1,e 1 School of Aeronautic Science and Engineering, Beihang University, Beijing 100191, China amanan8908@gmail.com, bliuhu@buaa.edu.cn, ctianyongliang@ase.buaa.edu.cn d16996634@163.com, ewuzhe@buaa.edu.cn Keywords: Civil aircraft, cabin customization, virtual reality, conceptual design.
Aviation Maintenance & Engineering. 2007, (3) [4] Z.
Liu: Selection of civil aircraft cabin products.
China Civil Aviation. 2008, (10) [5] K.
Hu: Research on Civil Aircraft Management Standard.

The serviceability criteria presented in this paper could provide an important factor to make a decision when wireless technology is to be adopted in typical civil engineering applications.
In general, wireless network should be reliable over wired system by providing more accurate, efficient, scalable, real-time, and robust framework in most civil engineering applications.
Different network topology and sensor capabilities will require different protocol based on various purposes of civil engineering applications.
As a consequence, it makes general users, such as civil and construction engineers, to handle and manage the WSN platform unless higher level of language or, at least, user-friendly interfaces are provided.
“A Wireless Network System for Automated Tracking of Construction Materials on Project Sites,” Journal of Civil Engineering and Management, Vol. 14, No. 1, pp. 11-19

Classification of Structural Steel of Existing Civil Engineering Structure Based on Testing and Evaluation of Yield and Ultimate Strengths KARMAZÍNOVÁ Marcela1,a and MELCHER Jindrich1,b 1Brno University of Technology, Faculty of Civil Engineering, Veveří St. 331/95, 602 00 Brno, Czech Republic akarmazinova.m@fce.vutbr.cz, bmelcher.j@fce.vutbr.cz Keywords: Structural steel, yield strength, ultimate strength, civil engineering structure, material testing, statistical evaluation, characteristic value, design value, nominal value.
The attention is mainly paid to the testing and subsequent determination of steel strengths, especially from the viewpoint of the statistical evaluation aimed to obtain the strength values leading to the reliable structural design [3], in the meaning of general rules given by the European Standard for the structural design of civil engineering constructions.
Introduction According to European Standards for the design of civil engineering structures (see [5], [6], [7]), the strength values used in the static assessment are given by characteristic and design values in the case of most materials.
Company”, Faculty of Civil Engineering of BUT, Brno 2012

The 161 papers are grouped as follows:
Chapter 1: Materials and Technologies in Civil and Building Engineering,
Chapter 2: Structural Mechanics and Analysis, Applied Mechanics, Constructions and Civil Engineering Applications,
Chapter 3: Geotechnologies and Geology, Tunneling and Subways, Seismology,
Chapter 4: Environmental Engineering, Green, Energy and Thermal Engineering in Building,
Chapter 5: Architectural Culture and Design, Urban and Transport Planning and Problems,
Chapter 6: Municipal Engineering, Water Systems and Resources, Management and Economics, Forensic Sciences,
Chapter 7: Education Engineering Keyword: Materials, Structural Mechanics, Applied Mechanics, Constructions and Civil Engineering, Geotechnologies and Geology, Tunneling and Subways, Seismology, Environmental Engineering, Green, Energy and Thermal Engineering in Building, Architectural Culture and Design, Urban and Transport Planning and Problems, Municipal Engineering
, Water Systems and Resources, Management and Economics, Forensic Sciences, Education Engineering

Study on the Resistance of Structural Optimization of Pipeline Elbow in Civil Engineering HongMei Sun1,a ZhiLong Zan2,b 1.Beijing Polytechnic, Beijing, 100029; China 2 Beijing JINGCHENG New Energy Co.
Beijing 100040,China asunhongmei3412@sohu.com, b xiaozhanfeilong@163.com Keywords: Pipeline elbow; optimization Structural; Section resistance; Vibration noise Abstract: In the pipe system of infusion, elbow is widely applied in Civil Engineering Structures based on structure materials.This paper studies a new infusion of the pipe elbow.
Introduction Infusion pipe elbows are widely used in Civil Engineering Structures.
Figure1 Original infusion elbow structural model and the grid According to the information provided by the relevant Civil Engineering Structures departments, we have chosen the boundary conditions: Fluid materials: water; Import conditions: uniform fluid flow into elbow, speed of 5 m / s; Export conditions:pressure outlet pressure 3Mpa Flow model: three-dimensional unsteady incompressible viscous flow, viscous models commonly used in engineering three-dimensional steady incompressible viscous flow, viscous models commonly used in engineering RNG equation.
Gas transmission pipeline elbow cracking causes and Prevention(in Chinese )Petroleum engineering construction, Jun1998.Pages 51-54 [2].Zhang DuiHong,ZhangJinGuo.Lun Nan Shou .

Keywords: civil aircraft engine; health mangement; research of contents; critical technologies; Realistic significance Abstract: With the development of civil aircraft engine health mangement system, the research of content of Health Management Technology for Civil Airplane is listed in schedule.
Based on multi-level model civil engine health management system can adopt reasoning technology.
Conclusions Through the research of civil engine health management technology contents and key technology ,it can accelerate the development of an independent intellectual property in civil engine health management system.
With China's aviation industry rapid development, it is urgent to develop its matching civil engine health management system.
[11].Xun-kai Wei,Ying-hong Li.Control Engineering of China,2007,14:84-87

Gradually their applications spread into automotive, energy, civil engineering industries and medicine.
The factors contributing to application of titanium in civil engineering include high corrosion resistance, low density and low thermal conductivity.
Titanium is used in shape memory alloys which are also used in civil engineering [7].
Shimizu, Application of titanium to construction, civil engineering and ocean development, Nippon Steel Report, 85 (2002) 6–10
Ruth, Applications of shape memory alloys in civil engineering structures - Overview, limits and new ideas, Mater.

The design of unascertained fire risk evaluation system for high-rise civil building based on VB Li-ning ZHANG1,a, Jing AN2,b, Qi ZHANG3,c 1 Mechanical-Electrical Engineering College, Beijing Institute of Technology, Beijing 100081, China 2 Electronic and Information Engineering College, North China Institute of Science and Technology, Beijing 065201, China 3 State Key Laboratory of Explosion Science and Technology, Beijing Institute of Technology, Beijing 100081, China azlining666@163.com, banjing0521@ncist.edu.cn, cQzhang@bit.edu.cn Keywords: High-rise civil buildings; Fire risk evaluation tree; The unascertained evaluation system design; The visual basic(VB) technology.
Firstly, according to the characteristics of high-rise civil buildings, based on the hazards identification, combined with the international building fire codes, by using the typical accident causation analysis and other methods, the various uncertain factors affecting high-rise civil building fire are analyzed, and a fire risk evaluation tree for high-rise civil buildings was built.
Procedia Engineering, Vol.62(2013), p.169-181 [2]Hao C., George V.
Procedia Engineering, Vol.11(2011), p.566-574 [4]HU B.Q, LIU M., LU Z.M.,2004.
Code for fire protection design of high-rise civil buildings.

Therefore such sensors have a good potential to be used in civil engineering structural health monitoring.
The sensors used in mechanical engineering cannot be simply transplanted into the civil engineering applications.
Thus a new kind of sensor should be developed to meet the requirements of civil engineering applications.
To meet the requirements of civil engineering structures, recently, a kind of 1-3 cement-based piezoelectric composite has been developed.
So this characteristic of the sensor make it more practicable in civil engineering structural health monitoring.