Influence of Casting Direction on the Mechanical Properties of Cementitious Fiber Reinforced Composites

Michal Tvarog; Jindrich Fornůsek

doi:10.4028/www.scientific.net/AMR.982.32

Paper Titles

Application of TDR Method for Moisture Profiles Measurement in Cellular Concrete
p.11

Adsorption of Water Vapor in Selected Sandstone Influenced by Different Method of Measurement Using Dynamic Vapor Sorption Device
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Effect of Porosity on Mechanical and Hygric Properties of Concrete with Natural Pozzolan Addition
p.22

Effect of Zeolite Admixture on Freeze/Thaw Resistance of Concrete Exposed to the Dynamic Climatic Conditions
p.27

Influence of Casting Direction on the Mechanical Properties of Cementitious Fiber Reinforced Composites
p.32

Restrained Shrinkage Test of High Performance Concrete Ring Specimen
p.38

Retention Curves of Different Types of Sandstone
p.44

Comparison of Two Different Modes of Inverse Analysis Used for Determination of Moisture Diffusivity of Building Materials
p.49

Determination of Hygric Properties of Hollow Brick Block as a Function of Moisture Content
p.54

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 982Influence of Casting Direction on the Mechanical...

Influence of Casting Direction on the Mechanical Properties of Cementitious Fiber Reinforced Composites

Abstract:

This paper is focused on behavior of fiber reinforced cement composites (FRC) and ultrahigh-performance fiber reinforced cement composites (UHPFRC) in dependence on the direction of casting. Almost fifty prismatic samples of size of 400 x 100 x 100 mm were cast into horizontal and vertical moulds. Forty of them with most corresponding results were used in this paper – twenty for FRC and twenty for UHPFRC. In each mixture three samples of both series were cast in the common horizontal direction and the other three in the vertical way. It was found that specific fracture energy of horizontally cast prisms was approximately four and half times higher for both materials than the vertically cast ones. The peak loads of FRC were very similar for both ways of casting. On the other hand the UHPFRC behaved differently, the peak load of horizontally cast prisms was approximately three times higher than the vertically cast ones. It was demonstrated that these differences are caused by the way of casting and vibration.

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Periodical:

Advanced Materials Research (Volume 982)

Pages:

32-37

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.982.32

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Online since:

July 2014

Authors:

Michal Tvarog*, Jindrich Fornůsek

Keywords:

Concrete, Fiber, Fiber Orientation, Fracture Energy, FRC, UHPFRC

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