Comfort Level Investigation of Chromite Composite Floor System under Human Walking Load

Farhad Abbas Gandomkar; Mona Danesh

Comfort Level Investigation of Chromite Composite Floor System under Human Walking Load

محل انتشار: مجله مهندسی عمران و مصالح کاربردی، دوره: 4، شماره: 3

سال انتشار: 1399

نوع سند: مقاله ژورنالی

زبان: انگلیسی

مشاهده: 335

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https://civilica.com/doc/1139960

شناسه ملی سند علمی:

JR_JCEMA-4-3_004

تاریخ نمایه سازی: 21 دی 1399

چکیده مقاله:

This paper's main objective is to determine the comfortableness of a composite structural floor system known as Chromite. For this purpose, twenty-eight Chromite panels were developed via the Finite Element Method (FEM) to find their Fundamental Natural Frequency (FNF). Then, the studied panels are categorized as Low-Frequency Floor (LFF) or High-Frequency Floor (HFF) regarding to their FNFs. Peak accelerations of low and high-frequency panels and also static stiffness of high-frequency panels were determined and compared with the limit value affirmed by the American Institute of Steel and Construction (AISC). Effects of various parameters were determined on changing FNF and also peak acceleration and static stiffness of the studied panels, depend to kind of panel as LFF or HFF. The results demonstrated that although some factors decreased and increased peak acceleration and static stiffness of the Chromite system, respectively, the panels could reach high vibration levels resulting in lack of comfortableness for users. In addition, the results show that the Chromite floor system needs to improve to be comfortable for users.

کلیدواژه ها:

Chromite floor system ، comfortableness ، human walking load ، static and dynamic response ، low and high frequency floor

نویسندگان

Farhad Abbas Gandomkar

Department of Structure, Faculty of Civil Engineering, Jundi-Shapur University of Technology, Dezful, Iran

Mona Danesh

Department of Civil Engineering, Faculty of Engineering, ACECR Institute of Higher Education, Khuzestan, Iran

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[1] Ellingwood B, Tallin A. Structural serviceability: floor vibrations. Journal ...
[2] Ad Hoc Committee on Serviceability Research, Structural serviceability: A ...
[3] Alvis SR. An experimental and analytical investigation of floor ...
[4] Pavic A, Reynolds P. Vibration serviceability of long-span concrete ...
[5] Gandomkar FA. Determining comfort level of profiled steel sheeting ...
[6] ISO 2631-2. Evaluation of human exposure to whole-body vibration ...
[7] American Institute of Steel Construction (AISC). Floor vibration due ...
[8] An Q, Ren Q, Liu H, Yan X, Chen ...
[9] Gaspar CM, da Silva JS, Costa-Neves LF. Multimode vibration ...
[10] Weckendorf J, Toratti T, Smith I, Tannert T. Vibration ...
[11] Zhou X, Cao L, Chen YF, Liu J, Li ...
[12] Carmona JE, Avila SM, Doz G. Proposal of a ...
[13] Friehe M, Heinemeyer C, Feldmann M. Design of highly ...
[14] Shahabpoor E, Pavic A, Racic V. Structural vibration serviceability: ...
[15] Andrade P, Santos J, Maia L. Reinforcement Measures to ...
[16] Zhang S. Vibration serviceability of cold-formed steel floor systems. ...
[17] Zhang S, Xu L, Qin J. Vibration of lightweight ...
[18] Mohammed AS, Pavic A, Racic V. Improved model for ...
[19] Casagrande D, Giongo I, Pederzolli F, Franciosi A, Piazza ...
[20] Do NT, Gül M, Abdeljaber O, Avci O. Novel ...
[21] Campista FF, da Silva JG. Vibration analysis of steel–concrete ...
[22] Cao LL, Qian C, Chu LZ, Yu GJ. A ...
[23] Zhou X, Yang Q, Li J, Ma X. Human-induced ...
[24] Chen S, Zhang R, Zhang J. Human-induced vibration of ...
[25] Wang X. Vibration control strategies for cancelling floor vibration ...
[26] Hassanieh A, Chiniforush AA, Valipour HR, Bradford MA. Vibration ...
[27] Chiniforush AA, Alamdari MM, Dackermann U, Valipour HR, Akbarnezhad ...
[28] Ebadi MM, Doudak G, Smith I. Evaluation of floor ...
[29] Abdeljaber O, Hussein M, Avci O, Davis B, Reynolds ...
[30] Gonçalves MS, Pavic A, Pimentel RL. Vibration serviceability assessment ...
[31] Royvaran M, Avci O, Davis B. Analysis of floor ...
[32] Huang H, Gao Y, Chang WS. Human-induced vibration of ...
[33] Li Z, Zhang Q, Fan F, Shen S. A ...
[34] Zhang X, Wang Q, Wang Y, Li Q. Experimental ...
[35] Middleton CJ, Brownjohn JM. Response of high frequency floors: ...
[36] Ljunggren F, Wang J, Ågren A. Human vibration perception ...
[37] BS 8110. Part1: Code for practice for design and ...
[38] da Silva JS, da S Vellasco PC, De Andrade ...
[39] Gandomkar FA, Badaruzzaman WH, Osman SA. Dynamic response of ...
[40] Gandomkar FA, Badruzzaman WH, Osman SA, Ismail I. Dynamic ...
[41] Mello AD, Da Silva JG, Vellasco PD, De Andrade ...
[42] Abaqus Analysis User’s Manual Version 6.12. [View at Publisher]. ...
[43] Smith AL, Hicks SJ, Devine PJ. Design of floors ...

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