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Application of Value Engineering in Optimizing Design Scheme of Highway Engineering Huihong Feng1, a, Xiaoping Ding2, b 1 School of Civil Engineering and Architecture, Southwest Petroleum University, Chengdu, Sichuan, 610500, China 2 School of Civil Engineering and Architecture, Southwest Petroleum University, Chengdu, Sichuan, 610500, China afenghh163@163.com, bdingxiaopingshu@163.com Keywords: Highway Engineering, Value Engineering, Design Stage, Optimize Scheme.
This paper applies value engineering to compare the technical economy of design schemes of highway engineering, comprehensive analysis the conditions of function and cost to optimize the optimal scheme, and verify the reliability of application value engineering in optimizing design scheme of highway engineering by actual engineering example.
Application Steps of Value Engineering To Select the Analysis Object of Value Engineering.
[3] Li Jianguo, Huang Hua, Evaluation Road Scheme with Value Engineering Theory,Municipal Technology, 2003,21(4):248～250 [4] Wang Jun, Jin Hao, Shi Qiyin,Application of Value Engineering in Bidding Evaluation of Architectural Design Scheme,Sichuan Architectural Scientific Research,2006, 32(1):171～173 [5] Li Jie, Li Yuanfu,Application of Improved Value Engineering Method in Optimizing Design Scheme of Highway Engineering,2006 China Traffic and Civil Engineering Academic Symposium,2006:1006～1010 [6]Ren Changneng.
Application of Value Engineering Method in Engineering Design,Building Economy,2004:67～69

Progress of Studies on Durability of FRP Rods Used in Civil Engineering WEI SHao ming1, a 1Tangshan housing construction Engineering corporation , china amyweishaoming@163.com Keywords: FRP rods,durability,environmental effect,bond behavior,prediction model Abstract.
Fiber reinforced polymer ( FRP) rods have a broad application in civil eng ineering field used as a material substiting steelbars.
Introduction Fiber reinforced plastic (FRP) tendons is reinforced with a superior performance of alternative materials, which is widely used in civil engineering.
In order to better understand the durability of FRP bars and guide the engineering practice, the thesis reviews the current domestic and foreign relevant FRP bars, especially the development of experimental and theoretical research on the durability of GFRP bars, and prospects the trend of its development.

Study of behaviour of advanced silicate materials for heating and moisture rehabilitation of buildings Jiří Zach1, a, Azra Korjenic2,b and Jitka Hroudová1,c 1Brno University of Technology, Faculty of Civil Engineering.
Institute of Technology of Building Materials and Components, Veveří 331/95, 602 00 Brno, Czech Republic 2Vienna University of Technology, Faculty of Civil Engineering, Institute for Building Construction and Technology, Research Centre of Building Physics and Sound Protection, Karlsplatz 13/206-2, 1040 Vienna, Austria azach.j@fce.vutbr.cz, bazra.korjenic@tuwien.ac.at, chroudova.j@fce.vutbr.cz Keywords: Thermal-insulating plasters, advanced silicate materials, rehabilitation of buildings.
The article describes the results of research work carried out in cooperation between the Faculty of Civil Engineering in Brno and the Faculty of Civil Engineering in Vienna concerning the development and study of the behaviour of heat-insulation plasters on a silicate basis, in particular in the area of the transfer of heat and moisture in their structures.
Other research goals include the study of their capillary activity inclusive of hygrothermal behaviour in order to enable computer simulations regarding the performance of these materials in real structures. [1] Design of testing formula Based on the results obtained during research from previous years (at Faculty of Civil Engineering, Brno University of Technology), focusing primarily on the development of thermally insulating plasters on silicate basis with optimal parameters, the best formulas were selected for further research in the field of thermal and moisture behaviour of materials under development.

Study on the Method of Rapid Making Topographic Map for Civil and Hydraulic Planning and Design Aichen Jia1, a, Pingping Ruan1, b, Xianfeng Shi2, c, Qing Zhang2, d 1 Faculty of Infrastructure Engineering, Dalian University of Technology, Dalian, Liaoning, 116024, China 2River Channel Management Bureau, Qingyuan, Liaoning 113300, China ajiaac@126.com, bppr110968@126.com, chdc3034850@163.com, d13942361058@139.com Keywords: Topographic map, Google Earth, Elevation extraction, ArcGIS, Coordinate conversion Abstract.
Considering topographic map is a basic material of planning and design in Civil and Hydraulic engineering.
Introduction Topographic map is a kind of important basic data in many projects of Civil and Hydraulic engineering.

Plastic, rubber, chemical fiber, building glue and paint are mainly involved in civil engineering.
Materials of civil engineering made from the polymer or the traditional material modified the preparations are traditionally known as the chemical building materials.
Chemical building materials is more and more widely applied in civil engineering, playing an important role in various decorations, waterproof, anticorrosive adhesive, as other civil engineering materials can not be replaced by.
Appling in civil engineering, we should try to avoid its weaknesses and elaborate the basic qualities.
There are a wide variety of engineering plastics.

Before civil construction, electric installation personnel should check the civil engineering and electric construction drawing together with civil construction technical personnel in case of the omission and mistake.
When constructing foundation engineering, the electrician should cooperate with civil engineering personnel in time to obligate and pre-embed professional strong and weak electric cable through-wall pipe and water-stopped flapper for home entrance service.
Before the masonry of partition, the technician should check one time the horizontal line and partition line together with the civil engineering section chief and jug planter.
Before plastering, the electrician should check once the obligated holes in the civil engineering based on the design and regulation of the horizontal line and partition line in the interior wall.
Conclusions Electrical engineering decoration is one part of the building electrical engineering.

Collection of selected, peer reviewed papers from the International Conference of Applied Physics and Engineering (ICAPE 2014), September 17-18, 2014, Park Royal Penang Resort, Malaysia.

The 30 papers are grouped as follows:
Chapter 1: Applied Materials,
Chapter 2: Technologies of Environmental Engineering,
Chapter 3: Building Materials and Civil Engineering,
Chapter 4: Designing and Researching in Mechanical Engineering Keyword: Catalyst, bisorption process, carbon nanotube, Electrocardiogram, Electrical discharged Machine, Reinforced and lightweight concrete, Thin film technology

Application Exploration of BIM Technology in the Design of Civil Air Defense Projects LI Wei1, a, HUANG Li Min2,b Wu Tao3,c 1.2.3 Engineering Institute of Corps of Engineers, PLA Univ. of Sci. & Tech, Nanjing 221007, China aleirwei@126.com, b84852151@qq.com, c527365756@qq.com Keywords: BIM; Air defence works; Navis Works; Revit.
The design of civil air defense engineering is the comprehensive reflection of function features, protection features, engineering techniques and architectural art.
For instance, the civil air defense department can fund and use BIM technology to make some demonstration projects of civil air defense, Summarize engineering experience, and draw up BIM-related technical guidelines.
[4] Chen Zhilong: Technology and Management of Civil Air Defense Engineering(2004)
[5] Li Li, Deng Xueyuan: The Construction of BIM-based Information Technology Platform in Civil Engineering Information Technology (2012)

The 224 papers are grouped as follows:
Chapter 1: Materials and Technologies of Processing;
Chapter 2: Researching and Designing of Machines and Mechanisms;
Chapter 3: Applied Thermodynamics and Heat Transfer;
Chapter 4: Instrumentation and Measurement Technologies, Monitoring and Fault Detection;
Chapter 5: Designing and Development of Robots;
Chapter 6: Mechatronics;
Chapter 7: Theory and Practice of Control;
Chapter 8: Civil Engineering;
Chapter 9: Product Design, Product Quality and Rapid Prototyping;
Chapter 10: Industrial Engineering Keywords: Materials Engineering, Mechanical Engineering, Electrical Engineering, Power and Energy Engineering, Measurement Technologies, Integrated Circuits, Mechatronics and Robotics, Manufacturing

Instruments for risk analysis as an alternative decision-making method in the forensic sciences Karel Kubečka1,a*,Silvie Dobiášová2,b,Jan Fridrich3,c,Pavel Vlček4,d,Milan Nič5,e 1 VŠB-Technical University of Ostrava, Forensic Institute, Faculty of Civil Engineering, L.Podéště 1875, Ostrava 708 33, Czech Republic 2,3 VŠB-Technical University of Ostrava, Department of Structure – Ph.D. student, Faculty of Civil Engineering, L.Podéště 1875, Ostrava 708 33, Czech Republic 4 VŠB-Technical University of Ostrava, Department of Building Structure – Ph.D. student, Faculty of Civil Engineering, L.Podéště 1875, Ostrava 708 33, Czech Republic 5 Slovak University of Technology in Bratislava, The Institute for Forensic Engineering, Faculty of Civil Engineering, Radlinského 11, block C, 15. floor, 813 68 Bratislava 15, Slovak Republic a karel.kubecka@vsb.cz, b silviedobiasova@seznam.cz, c jan.fridrich@vsb.cz, d pavel.vlcek1@vsb.cz, e milan.nic@stuba.sk Keywords: Project Documentation, Risk Analysis
, Universal Matrix of Risk Analysis, Civil Engineering Abstract.