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Research of Maintainability Evaluation for Civil Aircrafts Based on the Motion Capture System Xudong Wu 1, a, Hu Liu 1,a ,Song Mo 1,a, Zhe Wu1,a and Ying Li1,b 1 School of Aeronautic Science and Engineering of Beihang University,Beijing, China awuxudong791@gmail.com l, bLiying.1983@yahoo.com.cn Keywords: maintainability; evaluation; optical; motion capture; civil aircraft.
Maintainability is a main design attribute of a civil airplane.
A Test Case To demonstrate if the method based on optical motion capture system is feasible for the engineering application of the maintainability evaluation of the civil aircraft, a test case was developed.
[3] Zhou Hong and Gan Maozhi, “Maintainability Design for Products Based on Concurrent Engineering ,” JOURNAL OF MACHINE DESIGN, Vol. 20,No. 9, 2003,pp.3-5
[10] Gao Mingjun,Hao Jianping,Liu Jimin,Qu Changzheng, “Generation process of maintainability design requirements based on system engineering process”,Journal of Engineering Design,Vol.17,No.2 Apr.2010,pp.82-83

Study on Civil Architecture Energy Conservation Efficiency Fuzzy Synthetic Evaluation Yongping Wang1, a,Pei Yang 2, b,Chunquan Dai3, C 1College of Civil Engineering and Architecture, Shandong University of Science and Technology, Qingdao, Shandong, 266510, China 2College of Economics and Management, Shandong University of Science and Technology, Qingdao, Shandong, 266510, China 3College of Civil Engineering and Architecture, Shandong University of Science and Technology, Qingdao, Shandong, 266510, China awyp0507@163.com,byangpei8410@163.com,Cdcqwin@163.com Keywords: Civil Architecture Energy Conservation, Synthetic Efficiency, Fuzzy Synthetic Evaluation Abstract.
Introduction Civil architecture energy conservation project is a complicated system engineering, not only needs environmental engineers and architects clear and define the idea of energy conservation, and adopt sustainable design techniques and measures, but also needs decision-makers, regulatory agencies, community organizations, owners and users have environmental awareness and deeply understand the idea of energy conservation, and all take part in the whole implementation progress of civil architecture energy conservation project.
Civil architecture energy conservation environmental efficiency evaluation is evaluating the environmental result produced by civil architecture energy-saving activities, and evaluating the income and outcome brought by civil architecture energy-saving to the changing of environmental quality.
Conclusions Civil architecture energy conservation efficiency evaluation is a kind of multi-factors, multi-hierarchies and multi-goals synthetic evaluation, and is a kind of complicated system engineering.
Civil Architecture Energy Conservation Ordinance. http://www.gov.cn.

The 77 selected papers on Applied Mechanics and Civil Engineering are divided into the topics of: applied mechanics, civil engineering, hydraulic engineering, environmental engineering and safety, others.

So this is for the civil engineering construction project management have strict requirements.
Civil engineering construction cost management control of enterprise profit and not play a decisive role.
China civil engineering construction project management of Heilongjiang science and technology information, 2010, (34)
Project management work of modern civil engineering construction scientific deployment of [J]. building construction information 2009,11
Management of civil engineering project[J]. the construction, 2008, (2).

Collection of selected, peer reviewed papers from the 2013 4th International Conference on Applied Mechanics and Mechanical Engineering (ICAMME 2013), October 11-12, 2013, Singapore.

The 116 papers are grouped as follows:
Chapter 1: Advanced Materials Science and Chemical Engineering;
Chapter 2: Measurement Technology of Detection and Monitoring;
Chapter 3: Control, Electronic, Automation Technology and Communication Engineering;
Chapter 4: Mechanical Engineering, Manufacturing Technology and Management;
Chapter 5: Biomechanics Technology;
Chapter 6: Rock, Civil and Structural Engineering Keyword: Advanced Materials Science and Chemical Engineering; Measurement Technology of Detection and Monitoring; Control, Electronic, Automation Technology and Communication Engineering; Mechanical Engineering, Manufacturing Technology and Management; Biomechanics Technology; Rock, Civil and Structural Engineering

The characteristic titanium applications in the worldwide civil engineering are presented.
Titanium advantageous with respect to civil engineering.
Good corrosion resistance and low specific gravity are the most important for civil engineering.
Currently they are increasingly used in civil applications, including civil engineering.
This makes titanium an attractive and competitive material in the field of civil engineering.

In the construction process of large-scale civil engineering and architecture, how to realize rational scheduling is a key problem need to be solved.
Wherein demolition, masonry, installation can be completed either on their own or be outsourced. 2.2 system process scheduling method in Civil construction The frame structure of Civil Engineering is shown in Figure 1.
Figure1 The frame structure of Civil Engineering The access controller is responsible for the amount of tasks entering the system.
Conclusions Civil Engineering is the basic industry of our country and the pillar industry of the national economy.
After half a century of development, China's Civil Engineering industrialization has made great achievements.

Collection of selected, peer reviewed papers from the 2014 the 2^nd International Conference on Materials, Transportation and Environmental Engineering (CMTEE 2014), July 30-31, 2014, Kunming, China.

The 587 papers are grouped as follows:
Chapter 1: Materials and Chemical Engineering and Technologies,
Chapter 2: Environmental Materials, Biomaterials and Technologies,
Chapter 3: Energy and Thermal Engineering, Environmental Engineering,
Chapter 4: Civil and Building Engineering, Structural and Geotechnical Engineering, Applied Mechanics,
Chapter 5: Research and Design of Industrial Facilities and Technologies,
Chapter 6: Recent Technologies in Mechatronics, Control and Automation,
Chapter 7: Communication and Information Technologies, Algorithms and Numerical Methods of Data Processing,
Chapter 8: Traffic, Road and Transportation Engineering,
Chapter 9: Biomedical Engineering,
Chapter 10: Urban Planning, Sustainable City and Green Building Applications,
Chapter 11: Management Engineering, Business and Economics Engineering,
Chapter 12: New Technologies in Education and Sports Keyword: Materials and Chemical
Engineering; Environmental Materials, Biomaterials; Energy and Thermal Engineering; Civil and Building Engineering, Applied Mechanics; Mechatronics;Communication and Information Technologies; Traffic, Road and Transportation Engineering; Biomedical Engineering; Urban Planning; Management Engineering

Collection of selected, peer reviewed papers from the 2014 International Conference on Material Science and Environmental Engineering (MSEE2014), March 21-23, 2014, Changsha, Hunan, China.

The 126 papers are grouped as follows:
Chapter 1: Chemical Materials,
Chapter 2: Metal Materials and Alloys,
Chapter 3: Electronic Materials,
Chapter 4: Nano-Scale and Amorphous Materials,
Chapter 5: Biomaterials and Healthcare,
Chapter 6：Mechanical Materials and Engineering,
Chapter 7: Structural Materials and Civil Engineering,
Chapter 8: Environment Protection and Sustainable Development,
Chapter 9: Environmental Science and Engineering,
Chapter 10: Computation and Management Engineering Application Keyword: Chemical Material; Mechanical Engineering Materials; Biomaterials and Healthcare; Electronic Materials; Structural Materials and Civil Engineering; Metal Material; Nano-scale and Amorphous Materials; Environment Protection and Sustainable Development; Environmental Science and Engineering

Study on the Standardization of Civil Building Heating Design Flow Rui Yang Xinxiang University Keywords: Civil Buildings; Heating System; Design; Standardization Abstract.
Civil buildings are the dwelling places of different social groups of people.
Figure 1: Application of Heating Cables Problems in Traditional Heating Design Flow At present, heating systems have changed into indispensable part of civil construction engineering; the quality of heating system design has a close tie with the "satisfaction" of the home owners on the quality of construction engineering and also plays a decisive role in the benefits of final construction engineering.
Strategies for the Standardization of Civil Building Heating Design Flow Heating system is integral part of the civil buildings structures; a scientific and rational design plan plays an important influence on the function of heating system.
Therefore, it is necessary for design units to attach high importance to the standardization management of related indexes when designing the heating system for a civil building, allowing the heating solutions of all civil buildings to exert their optimal control effect.