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Life-cycle engineering is a very well established discipline in the industrial field but it has been only recently imported in the civil engineering sector [2,3].
Application to civil engineering structures requires these materials to be produced in large quantities and at low cost.
Examples To conclude the discussion, typologies able to be transformed into dynamically morphing civil engineering structures will be addressed.
Small and large structures have also been proposed in the civil engineering field.
Carlson: Dynamic Modelling of Large-Scale Magnetorheological Damper System for Civil Engineering Applications, ASCE Journal of Engineering Mechanics, Vol. 130, No. 9 (2004), pp. 1107-1114 [12] H.

Modal Parameters Identification of Civil Engineering Structures Based on the Random Decrement Technique Qiang Pei 1,a, Long Li 1,b 1Research ＆ Development Center of Civil Engineering Technology，Dalian University, Dalian 116622，China apqiem@163.com, bdxl269@163.com Keywords: random decrement technique; modal parameters identification; structural engineering; civil engineering structures Abstract.
Their accuracies meet the requirement of practical engineering.
China (Grant No. 50908027, 51008040), the Open Laboratory of Earthquake Engineering and Engineering Vibration (Grant No. 2009A10), the Educational Department Foundation of Liaoning Province (Grant No. 20060053).
[3] Ke Zeng and Ditao Niu: Earthquake Resistant Engineering and Retrofitting Vol. 27 (2005), p.81
[4] Jinghong Liu, Weiyu Han and Jiangang Sun: Science Technology and Engineering Vol. 8 (2008), p.23

This book aims to collect the latest development and applications of advanced and sustainable materials, the innovation in civil and hydraulic engineering, the innovation in architecture and building construction, and the innovation in bridge and underground engineering.

This book presents the newest and actual results of researches that intend to improve theoretical and practical activities in the field of mechanical engineering and automotive, clinical biomechanics, civil engineering, robotics and mechatronics based on the papers presented at the 5th International Conference of Mechanical Engineering (ICOME 2019, October 24-25, 2019, Craiova, Romania).
Applied Mechanics, Computational Mechanics, Biomechanics, Modeling, Simulation, Mechanical Engineering, Design, Automotive, Civil Engineering, Seismic Engineering, Urban Planning, Composites, Steel, Alloys, Cutting, Molding Injection, Milling, Turning

Collection of selected, peer reviewed papers from the 2013 International Conference on Civil, Materials and Environmental Sciences (CMES 2013), April 17-18, 2013, Vancouver, Canada.

The 93 papers are grouped as follows:
Chapter 1: Civil and Building Engineering, Applications;
Chapter 2: Material Engineering and Technology;
Chapter 3: Environmental Sciences and Engineering, Waste and Recycling Technologies;
Chapter 4: Manufacturing Technology and Engineering.

Vibration Analysis of Civil Aero-engine Based on Stochastic Resonance Preprocessing Zhang Ying1, a, Liao Heng-Yu2, Zhao Ge3 1College of Aeronautical Engineering, Civil Aviation University of China, Tianjin 300300, China 29 Air Co.
In recent years, the turbofan engine became the main direction in the civil aviation.
Engineering Application to Vibration Analysis of the Aero-engine Rotor At present, the multi-spool engine has occupied the majority of civil aviation market, having two or three rotors.
Here, we set the unit of the vibration amplitude “VIB” as “Engineering Unit (EU)”, and the time “t” unit as “s”.
So the application of SR is an effective attempt in this engineering process.

Construction Materials, Architecture Science and Civil Engineering,
IV.
Medicine and Health Engineering,
VIII.
Construction Materials, Architecture Science and Civil Engineering, IV.
Power Engineering and Energy Supply, VI.
Medicine and Health Engineering, VIII.

Nowadays, there are many systems can be used in multi-layer civil building, such as masonry-concrete structure, cast-in-situ concrete structure and assembled concrete structure.
Introduction Recently, structures which can be used in multi-layer civil building are masonry-concrete structure, cast-in-situ concrete structure and assembled concrete structure.
Following is the evaluation of three main structure system used in multi-layer civil building.
Therefore, popularizing and applying assembled concrete structure will bring more social and economic benefit in multi-layer civil building system.
References [1] Jue Wang, Sanyang Liu, Jie Zhang: Systems Engineering-theory and Practice.2005,02, p.119.In Chinese

High-performance materials for civil air defense works can resolve the problem effectively.
Architectural Design & Research Institute, Shandong Province, has reinforced in the civil air defense engineering applications HRBF500 reinforcing bar preliminary studies [1], Recent issue of Technical guidelines for application of high strength hot rolled ribbed bars in concrete structure RISN-TG007-2009[2] put forward guiding on high strength steel in the air defense and high-performance fiber reinforced cement-based composite materials for civil air defense projects in the domestic limited to airtight blast door, explosion-proof door and other structural element.
Design features of civil air defense work Design of civil air defence work is different to general civil,load are occasional moments and duration is very short.
Therefore, the civil air defense engineering requirements for building materials not only strength but also high ductility, high energy capacity and impact resistance.
Practical example This project is a layer of underground garage, floors 5m, column spacing 8.4m, top of the casing 0.8m, engineering design life of 50 years, according to the nuclear 6 A defense basement design.

Material Testing and Evaluation of Steel Mechanical Properties for Classification of Steel Grade of Existing Civil Engineering Structure 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: Material testing, Evaluation, Mechanical property, Classification, Steel grade, Ultimate strength, Yield strength, Design, Characteristic, Nominal, Value, Existing civil engineering structure.
The attention is paid i.a. to the testing and evaluation of steel strengths, especially from the viewpoint of the statistical elaboration of material test results aimed to obtain strength values leading to the reliable structural design [3], in the meaning of general rules according to the European Standards for structural design of civil engineering constructions.
Design, Characteristic and Nominal Value of Material Property According to the rules given by European Standards for the design of civil engineering structures [5], [7], the strength values used in the process of the structural and static design are given by characteristic and design values in the case of most materials, that means, for example, concrete, cement composites, masonry, timber, ceramics or other similar materials.
Melcher, Classification of structural steel of existing civil engineering structure based on testing and evaluation of yield and ultimate strengths, In Proc. of ICMEME 2012 – Applied Mechanics and Materials, TransTech Publication: 2012, in print.