Theoretical and finite element analysis of the two-way PSSDB floor system

The profiled steel sheet dry board (PSSDB) system is a lightweight composite structure which consists of profiled steel sheeting connected to dry board by self- tapping and self-drilling screws. It can be used as flooring, walling and roofing panels. This paper presents the investigation of the two-...

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Bibliographic Details
Published inJournal of constructional steel research Vol. 135; pp. 49 - 55
Main Authors Al-Shaikhli, Marwan Samir, Wan Badaruzzaman, Wan Hamidon, Baharom, Shahrizan, Hilo, Salam Jasim
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.08.2017
Subjects
Composite structure
Dry board
Profiled steel sheeting
Two way behavior
B
EDB
Two way behavior
Profiled steel sheeting
IPSS
IDB
h
Dry board
IComposite
COV
EPSS
n
σDB
APSS
SD
T
σPSS
YPSS
Composite structure
FE
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Summary:The profiled steel sheet dry board (PSSDB) system is a lightweight composite structure which consists of profiled steel sheeting connected to dry board by self- tapping and self-drilling screws. It can be used as flooring, walling and roofing panels. This paper presents the investigation of the two-way flexural behavior of the PSSDB floor system. The study employs both theoretical and non-linear finite element (FE) analysis. The FE approach has been done using ABAQUS software. While the theoretical one was conducted using an elastic full interaction analysis. The obtained results were verified against experimental tests and it was shown that both the theoretical and FE solutions are adequate enough to predict the behavior of PSSDB system. After that, several parametric studies have been conducted to have a better comprehension of the factors that affect the behavior of the system. It was found that the changing the dry board depth can enhance the behavior up to 23%. However changing the type of board has a minor effect on the elastic stage and it starts increasing in the plastic period up to 14%. Also, it was shown that changing the thickness of steel sheeting can affect the performance by approximately 18%. Screw spacing has an impact on the strength of the system up to 9.6%. Finally, applying line load has demonstrated a better two-way action than point load. •Few studies have considered the two-way bending behavior of the PSSDB system.•The depth and type of dry board can significantly affect the performance.•Reducing the thickness of the profiled steel sheeting will accelerate the cracking of the dry board.•Changing the screw spacing has a minor effect on the strength of the system.
ISSN:0143-974X
1873-5983
DOI:10.1016/j.jcsr.2017.04.006