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ANN is viewed as a powerful tool in solving complex problems of civil engineering.
Composites Part B: Engineering, 43(8), 3198-3207
Engineering structures, 61, 99-112
Composites Part B: Engineering, 41(4), 287-298
Journal of Civil Structural Health Monitoring, 6(3), 545-560

In the civil field, the Boeing Company has used PHM in the civil aviation field, named Aircraft Health Management (AHM) System, and it has been used in of B777, B747, A320, A330and A340 of France Airline, America Airline, Japan Airline and Singapore Airline，and the flight safety and flight operation efficiency are enhanced.
The domestic PHM technology are mainly used in civil aviation such as COMPASS，ECM，ADEPT and so on.
[8] Johnson S B.: Introduction to system health engineering and management in aerospace, First International Forum on Integrated System Health Engineering and Management in Aerospace, November 7-10, 2005, p.234-239
[14] Ynagming Guo, Xiaobin Cai, Baozhen Zhang et al.: Prognostics and health management technology for new-gener-ation weapon, Computer Engineering and Applications, 2008, 44(13), p.199-202
[16] Bo Sun, Rui Kang, Jinsong Xie: Research and application of the prognostic and health management system, Journal of Systems Engineering and Electronics, 2007, 29(10), p.1762-1767

Proceedings coordination meetings on Hydraulic Engineering, Leningrad: Energiya, (1968), pp. 106-116
Thermal Engineering, no. 2, (2002), pp. 29-32
Magazine of Civil Engineering, no. 8, (2012), pp. 4-14
Magazine of Civil Engineering, no. 2, (2013), pp. 25-34
Magazine of Civil Engineering, no. 8, (2011), pp. 51-56.

Makinda1, e 1Department of Geotechnics and Transportation Engineering, Faculty of Engineering, Universiti Teknologi Malaysia, 81310 Skudai, Johor, Malaysia 2Department of Civil and Water Resources Engineering, University of Maiduguri, P.M.B. 1069, Maiduguri, Nigeria 3Department of Civil Engineering, Kano University of Science and Technology, Wudil, P.M.B. 3244 Kano, Nigeria asadiq4civil@yahoo.com, bkanuar@utm.my, cmuttaqaubaz@yahoo.com, dkamarudin@utm.my, ejodin@ums.edu.my Keywords: Enzyme Induced Calcite Precipitation, Sandy Soil, Unconfined Compressive Strength, Ammonium, Palm Oil Fuel Ash Abstract.
Chiet, Biological process of soil improvement in civil engineering: A review, J.
Choi, Engineering Properties of Biocementation Coarse- and Fine-Grained Sand Catalyzed By Bacterial Cells and Bacterial Enzyme, J.

Progressive Pushover Analysis of a Reinforced Concrete Bridge of Pakistan Aymen Zia1,a*, Ahsan Khalil2,b 1Department of Civil Engineering, The University of Lahore, Islamabad Campus, Islamabad 45750, Pakistan 2Department of Civil Engineering, The University of Lahore, Islamabad Campus, Islamabad 45750, Pakistan a*aeminz.50@gmail.com, bahsan.khalil@ce.uol.edu.pk Keywords: Pushover Analysis, Reinforced Concrete Bridge, CSI Bridge, Plastic Hinges, Capacity Curves Abstract.
The civil engineering field has now reached a point where seismic design based on linear elastic analysis is no longer adequate and nonlinear static analysis such as pushover analysis is required [2].
Seneviratna, “Pros and cons of a pushover analysis of seismic performance evaluation”, Engineering structures, 20(4-6) (1998)452-464
Kappos, “Seismic assessment of a major bridge using pushover analysis”, International Conference on Computational and Experimental Engineering and Sciences, Corfu, Greece, (2003)24-30
Panah, “Nonlinear static pushover analysis in earthquake engineering: State of development”, ICCBT, Kuala Lumpur, (2008)69-80.

Bolander2,b and Yun Mook Lim1,c 1School of Civil and Environmental Engineering, Yonsei University, Seoul, Republic of Korea 2Department of Civil and Environmental Engineering, University of California, Davis, California, USA akunhwi@yonsei.ac.kr, bjebolander@ucdavis.edu, cyunmook@yonsei.ac.kr Keywords: dynamic fracture, concrete, RC structure, rate dependency, rigid-body-spring network, visco-plastic damage model.
International Journal of Impact Engineering, 25(9):869- -886, 2001
Engineering Fracture Mechanics, 75(13):3782--3805, 2008
Engineering Fracture Mechanics, 61(5-6):569--591, 1998
Computer-Aided Civil and Infrastructure Engineering, 20(6):393--407, 2005

Study on seismic performance of raw-soil structure in China Yonghong Bu1, a, Yihong Wang1,b and Ye Yin2,c 1School of Civil Engineering, Chang’ an University, Xi’ an, Shaanxi, 710061, China 2School of Civil Engineering, Xi'an Eurasia University, Xi’ an, Shaanxi, 710065, China abyh956@126.com, bwangyh@chd.edu.cn, cyiyi_0704@163.com Key words: Raw-soil Structure, Seismic Performance, Research Progress, Investigation, Experimental Study, Constructing Method, Norm and Standard.
Although there are many scientific and rational civil construction technology of raw-soil structure, but not considering seismic factor of the housing and most rural raw-soil structure is age-old, most existing raw-soil structure are more or less of the security risks.
Its construction and engineering practice were briefly described and the structure had some value to generalize in the drought areas in the literature 16.
References [1] Zengfeng Yan: Dynamic modeling of the indoor thermal and humidity environment in the adobe buildings. xi’an: Xi'AN University of Architecture and Technology, 2003(in Chinese) [2] Yucheng Shi, et al, in: Journal of Natural Disasters, 2003, 12(3):87-92(in Chinese) [3] Huijuan Wu, et al, in: Earthquake Resistant Engineering Retrofitting, 2004(5):1-5(in Chinese) [4] Working Group in Tonghai that belongs to the Second Research of Institute of Engineering Mechanics of Chinese Academy of Sciences: Earthquake Engineering Research Report Series, third episode, Science Press.
Kunming University of Science & Technology, 2007(in Chinese) [7] Denren Ping, in: Construction in Town and Village, 1991(6):20-22(in Chinese) [8] Wen Pan, Xueli Ge, in: Earthquake Engineering, 1998(2) (in Chinese) [9] Xueli Ge, Lixin Zhu, in: Earthquake Engineering, 2001(1):43-48 (in Chinese) [10] Yihong Wang, in: China Civil Engineering Journal (Supplement 1), 2010, 43:462-467 (in Chinese) [11] Weihua Chang, in: Building Structure (Supplement), 2010, 40(S1):375-378(in Chinese) [12] Yihong Wang, in: Journal of Xi'an University of Science and Technology, 2006, 26(4):469-484(in Chinese) [13] Zhong Tao, in: Earthquake Resistant Engineering Retrofitting, 2008, 30(1):90-93(in Chinese) [14] Yihong Wang, in: Conference Proceedings of the basic theory and application of 2005 National masonry structure and wall materials. 2005:33-37(in Chinese) [15] Jinsheng Huang, Zhong Tao, in: Journal of Kunming University of Science and Technology, 2008, 33(1):60-64(in Chinese) [16] Xin Hu, Tiegang

The Design of Blasting Demolition of the Reinforced Concrete Chimney Based on Complicated Conditions Chunli Zhang 1, a, Bo Wang2, b, Yanzhi Zhu 3, c 1 School of Civil Engineering and Architecture, Zhongyuan University of Technology, and School of Water Conservancy and Environmental Engineering, Zhengzhou University, China 2School of Water Conservancy and Environmental Engineering, Zhengzhou University, China 3School of Civil Engineering and Architecture, Zhongyuan University of Technology, China achunli168@163.com, bwangbo@zzu.edu.cn, czhuyanzhi@126.com Keywords: reinforced concrete chimney; directional blasting; preliminary demolition; blasting vibration Abstract.
Combining with the engineering example, a few notes are introduced during the reinforced concrete chimney blasting design.
Based on a large number of similar engineering practices and =1.5×0.4=0.6 m, the cut heightis taken as 2.0m.
Engineering Blasting.
Engineering Blasting.

An engineering example of removing iron and manganese from underground waterYour Paper's Title Starts Here: Please Center use Helvetica (Arial) 14 Yu FULL First AuthorLi1, a, Yafeng FULL Second AuthorLi21, b and Last Author3,c 1 College of Environmental and Municipal EngineeringFull address of first author, Shenyang JianZhu University, Shenyang 110168, China including country 2Full address of second author, including country 3List all distinct addresses in the same way aemail,shiliuyedoudou@163.com, byafengli88@sina.comemail, cemail Keywords: underground water; remove ferrum and manganese; design parametersList the keywords covered in your paper.
Use water supply treatment engineering of Shenyang some water treatment plant as an example.
This water treatment plant treat the underground water as the source, and the processing capacity of water of this engineering is 105t/d.
It can provide experience for similar engineering.Use italic for emphasizing a word or phrase.
Green: Removal of iron, manganese and nitrogen compounds from underground waters with diverse physical and chemical characteristics High Efficiency Silicon Solar Cells ( Faculty of Civil and Environmental Engineering, Department of Water Protection and Purification, Technical University of Rzeszów, aleja Powstanców Warszawy 6, 35-959 Rzeszów, Poland Trans Tech Publications, Switzerland 19872007)

Research on application of warm mix asphalt technology in hot in-place recycled engineering Xiaoli LI 1,a Qingzhou WANG 2,b Shuyan LIU 1,c 1 Tianjin Municipal Engineering Research Institute, Tianjin 300074, China 2 Institute of Civil Engineering, Hebei University of Technology, Tianjin 300401, China a278894292@qq.com, bwqz1718@126.com, cliusy_2003@126.com Keywords: Warm mix asphalt technology; Hot in-place recycling technology; Performance of recycled asphalt mixture; Compaction Abstract: Because of the heating limitation of old pavement and the restriction of climate, the quality of hot in-place recycled pavement was different to control.
A warm in-place recycled engineering of Shian expressway was introduced to verify the feasibility of warm in-place recycling technology which demonstrated that the warm in-place recycling technology was able to improve the heterogeneity and compaction quality of the recycled pavement and weaken the environmental pollution.
The test road The warm in-place recycled engineering was conducted in the section K291+865～K308+000 of the tie line of Shian expressway to Taiyuan using AR2000 pavement recycling machine unit.
China Highway, 2011(24): 112-113(In Chinese) [3] Standard Test Methods of Bitumen and Bituminous Mixtures for Highway Engineering (JTG_E20-2011) (In Chinese) [4] Technical Specification for Construction of High Asphalt Pavements(JTG F40-2004) (In Chinese)