Abstract
The examinations of properties of steel fiber reinforced cement composite (SFRCC) specimens do not reflect properties of these composites in an actual pavement, tunnel or bridge. Each, even the most basic road pavement or structure, works within constantly changing conditions, where different loads appear and disappear in time. The impact strength of SFRCC is strongly influenced by a number of factors that tend to increase the statistical variations. Therefore the design of SFRCC elements should be based on statistical considerations of their properties. A drop weight test is the simplest test for evaluating impact resistance as the relative performance of plain cement composite and SFRCC containing different types and volume fractions of fibers. The research program was divided into three main stages. The first stage covered VeBe test, measurement of density of hardened composite and compressive strength. The main aim of the first stage of this research program was to check quality and homogeneity of the cement composites. The second stage covered multiple drop-weight load. During the drop weight procedure, the ultrasound test was conducted after each five impacts. The third stage covered statistical analysis of achieved results. The carried out experiments have shown that the ultrasound method combined with statistical methods are well used to monitor changes of mechanical properties of SFRCC used for road pavements or structure during dynamic destruction process. Time needed for the ultrasound wave to pass through a composite was main information about process of destruction occurring during an impact test (internal cracks in the composite structure make the way that ultrasound wave propagates longer comparing to undamaged structure of the composite). The results of the ultrasound propagation time measurements were analyzed based on a statistical approach.
Highlights
Cement composites modified by steel fibre become more and more popular construction material in civil and structural engineering (Zollo 1997)
Equations of skewness (1) and kurtosis (2) of density depending on fiber volume fraction show that best homogeneity of results can be achieved at relatively low volume fractions of fiber
The carried out experiments have shown that the ultrasound method combined with statistical methods are well used to monitor changes of mechanical properties of steel fiber reinforced cement composite (SFRCC) during dynamic destruction process
Summary
Cement composites modified by steel fibre become more and more popular construction material in civil and structural engineering (Zollo 1997). The actual origins of steel fiber reinforced cement composite (SFRCC) go back more than one hundred and thirty years. The addition of steel fibers significantly improves several mechanical properties of cement composite (Ponikiewski 2011; Song, Hwang 2004; Szmigiera 2007; Šalna, Marčiukaitis 2007; Veselý, Frantík 2011). The main advantage of harnessing such composites, are their dynamic properties. Dynamic properties of SFRCC were the main factor which decided that these composites are used to erect airport runways, highway paving, bridge decks, marine structures, and varied types of thinshell structures (Balaguru, Shah 1992; Johnston 2001; Maidl 1995) and composite steel-SFRC columns (Szmigiera 2007). The design of SFRCC elements should be based on statistical considerations of their properties
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
