Search results

., Fireproofing and thermalproof composites with volcanic rocks (2011), Electronic scientific journal "Engineering Gazette of Don." 4.
Petersburg: Civil Engineering, 2012. pp. 115-117
"Engineering," Vol. 4).
[8] Hezhev H.A., Hezhev T.A., Puharenko Y., Cementless concretes with volcanic rocks, Bulletin of Civil Engineers.

However, the different test results always confused the engineers; it is really hard for them to decide which kind of asphalt mixture has the better low temperature performance on the bases of the results obtained from these test methods.
Proceedings of the Institution of Civil Engineers-Transport, 1996. 117(1): p. 40-49
Journal of Transportation Engineering, 2006. 132(5): p. 394-401
Journal of Materials in Civil Engineering, 1999. 11(4): p. 274-282

Kondraivendhan2,b, Shilpi Verma3,c and Mukul Gupta4,d 1Department of Civil Engineering, Sardar Vallabhbhai National Institute of Technology, Surat 395007, Gujarat, India. 2Department of Civil Engineering, Sardar Vallabhbhai National Institute of Technology, Surat 395007, Gujarat, India. 3Research Scholar (SCET), Surat 395007, Gujarat, India. 4Scientist, UGC-DAE Consortium for Scientific Research, Indore, MP India.
Slag properties are very similar to those of natural aggregates, and steel slag can be used as a replacement for them [3].In addition, steel slag can be used as aggregates in filters in wastewater engineering; it also positively affects the removal of various heavy metals from wastewater.
Ain Shams Engineering Journal, 11(1), 231–243

Dynamic Response of Damped Outrigger System for Frame-Core Tube Structure Under Earthquake Loads Zeyao Xu a, Qian Lin b and Jianlin Zhang c School of Architecture and Civil Engineering, Xiamen University, Xiamen, Fujian, 361005, China aneo.xzy@hotmail.com, blin_qian1987@126.com, czhangjl@xmu.edu.cn Identify applicable sponsor: Zeyao Xu, Corresponding author: Jianlin Zhang Key words: High-Rise Building, Frame-Core Tube Structure, Damped Outrigger, Structural Control, Fluid-Viscous Damper.
Introduction High-rise building has been rapidly increasing world widely, introducing new challenges that need to be met through engineering judgment with the development of social economic and the progress of technology.
R.: The ARUP Journal, VOL.3 (2008), p.15-21 [3] Renard Gamaliel: Frequency-based response of damped outrigger systems for tall buildings, University of California at Berkeley (2007) [4] Zheng-qing Chen and Zhi-hao Wang: A novel passive energy dissipation system for frame-core tube structure, The Seventh Asia-Pacific Conference on Wind Engineering, November 8-12, 2009, Taipei, Taiwan [5] F.
Wagner: Computational Mechanics, VOL.27 (2001), p.199-207 [6] Jingbo Liu and Xiuli Du: Structural Dynamics, edited by Jinping Ou, volume 1 of the System of Distributed Parameter, chapter, 6, China Machine Press, In Chinese (2007) [7] Aiqun Li: Structural Vibration Control For Civil Engineering, edited by Weilian Qu,volume 6 of Structural Vibration Reduction Technology And Devices, chapter, 8, China Machine Press, In Chinese (2007) [8] Smith.

Research on Cooperative Working Performance of Cold-formed Steel Stud Wall – Steel Frame Structure Hanheng Wu1,a, Tianhua Zhou 1,b and Yu Shi 1,c 1School of civil engineering, Chang’an University, Xi’an 710061, Shaanxi, China awuhanheng@163.com, bzhouth163@163.com, cshiyu7811@163.com Keywords: Cold-Formed Steel Stud Wall, Steel Frame, Cooperative Working performance, Shear Force Distribution, Analytical method, Finite Element Method.
Pekoz: Journal of Structural Engineering.
Ogunfuni: Journal of Structural Engineering.
Zhou, etc: Journal of Architecture and Civil Engineering.

Influence of Hoop Coefficient on Dynamic Response of Railway Bridge Protective Frame under Impact Load Aotian Ju 1, a, Shuying Qu 2, b, Xingmin Hou 3, c, Jintian Wang 4, d 1,2,3,4 School of Civil Engineering, Yantai University, Shandong Yantai, China ajatjattian@126.com, bqsy_qu@163.com, chouxm@ytu.edu.cn， dwang6707662@126.com Keywords: Hoop Coefficient; Railway Height Limit Protective Frame; Impact Force; Displacement and Deformation; ANSYS/LS-DYNA Abstract.
World Earthquake Engineering, 2007, 23(4): 119-128 [3] He Tao, Yang Jing, Jin Xin.
China Civil Engineering Journal, 2007, 40(10): 34-39 [6] Wen Yuanyuan, Liu Yangling.
Journal of Structural Engineering ASCE, 2004, 130(2): 223-232 [9] Hardika M S, Gardner N J.

Geocement-based Coatings for Repair and Protection of Concrete Subjected to Exposure to Ammonium Sulfate KRIVENKO Pavel Vasiljevich1a*, GUZIY Sergey Grigorjevich1, KYRYCHOK Vladimir Ivanovich1 1Scientific Research Institute for Binders and Materials, Kiev National University of Civil Engineering and Architecture, Vozdukhoflotskyi prospect, 31, Kiev 03680 Ukraine apavlo.kryvenko@gmail.com Keywords: Aggressive environment, ammonium sulfate, coating, concrete, geocement, protection, repair, zeolite.
Gerasimenko, Protection Against Corrosion, Aging and Biodegradation of Machinery, Equipment and Structure, Vol. 1, Engineering Publish, Moscow, 1987
Kirichok, Rehabilitation of concrete surfaces of hydropower engineering structures deteriorated by soft corrosion and cavitation, J.
Glukhovsky Scientific Research Institute for Binders and Materials, Kyiv National University of Civil Engineering and Architecture, Povitroflotsky pr., 31, Kyiv 03680 Ukraine Tel: +380442483165; 2415456, Fax: +380442483054 (automatic), Fax/tel: +380442454830, e-mail: pavlo.kryvenko@gmail.com, sguziy@ukr.net, v.kyrychok@gmail.com

Almost it can be able to meet the requirements of various engineering environment, and there is no suitable material instead of concrete as structural materials of construction works.
High Performance Concrete ( HPC) Concrete structural materials is one of the main bearing pressure, the main direction of the development of technology is to become more than a century of concrete to improve the strength of engineering structures.
In the 20th century, the civil engineering sector in general do not care about the durability problems.
The development of green high performance concrete in civil engineering.

Effect of copper slag on properties and structure of cement and concrete Junwei Song School of Civil Engineering, Jiangxi university of technology, China okby@sina.com Keywords: concrete, copper slag, macroscopic properties, microscopic structure, hydration process Abstract.
The production process of it is simple, and the investment can save 50%, more copper slag is used than other varieties of cement (slag accounted for the amount of cement about 60% to 70%), and energy consumption can be reduced by 50%. 1.1.2 Used in industrial and civil construction industry [9] (1) brick-making and a variety of block can use water quenching copper slag of smelting copper as aggregate.
Nanchang University Academic Journal (Engineering Science Edition), No.2, 2000
University Journal (Engineering Science Edition), No.2, 2000
Water Quenching Copper Slag Generation of Sand Concrete [J] Qingdao Institute of Architectural Engineering, 2003 (2): 20-24

Abdullahe Department of Aerospace, Faculty of Engineering, University of Putra Malaysia (UPM), 43400 Serdang, Selangor, Malaysia.
Measurements to identify the modal parameters which are eigenfrequencies, damping ratios and mode shapes from data measured on a structure during operational conditions by application of OMA has grown tremendously in the aerospace and civil engineering applications since 1990. [1] Several examples of OMA applications for wind tunnel testing is given in the following works.
Output-Only Modal Analysis By Frequency Domain Decomposition, in Proceedings of The ISMA25 Noise And Vibration Engineering. 2000.
Computer-Aided Civil and Infrastructure Engineering, 24(4), 249–265. doi:10.1111/j.1467-8667.2008.00585.