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Failure of Lightweight Aggregate Concrete in Compression under Stress Gradients

Zivkovic Jelena / Øverli Jan Arve

The objective of this experiment is to investigate the behaviour of lightweight aggregate concrete (LWAC) under compression and with stress gradients. Experimental program contained three sets of LWAC which were used for production of 21 prisms. Lightweight aggregate argillite slate, called Stalite, from North Carolina had been used. The sets differed in using dry (0.10% moisture content) or saturated (7.9% moisture content) aggregate. The third set included a small amount of polyvinyl alcohol fibres (PVA). The geometry of the prisms were 100 × 140 × 480 mm (width × length × height). Prismatic samples were loaded centrically and eccentrically in compression.

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Failure of Lightweight Aggregate Concrete in Compression under Stress Gradients

Zivkovic Jelena / Øverli Jan Arve

The objective of this experiment is to investigate the behaviour of lightweight aggregate concrete (LWAC) under compression and with stress gradients. Experimental program contained three sets of LWAC which were used for production of 21 prisms. Lightweight aggregate argillite slate, called Stalite, from North Carolina had been used. The sets differed in using dry (0.10% moisture content) or saturated (7.9% moisture content) aggregate. The third set included a small amount of polyvinyl alcohol fibres (PVA). The geometry of the prisms were 100 × 140 × 480 mm (width × length × height). Prismatic samples were loaded centrically and eccentrically in compression.

Failure of Lightweight Aggregate Concrete in Compression under Stress Gradients

Zivkovic Jelena / Øverli Jan Arve

The objective of this experiment is to investigate the behaviour of lightweight aggregate concrete (LWAC) under compression and with stress gradients. Experimental program contained three sets of LWAC which were used for production of 21 prisms. Lightweight aggregate argillite slate, called Stalite, from North Carolina had been used. The sets differed in using dry (0.10% moisture content) or saturated (7.9% moisture content) aggregate. The third set included a small amount of polyvinyl alcohol fibres (PVA). The geometry of the prisms were 100 × 140 × 480 mm (width × length × height). Prismatic samples were loaded centrically and eccentrically in compression.

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Title:

Failure of Lightweight Aggregate Concrete in Compression under Stress Gradients

Contributors:

Zivkovic Jelena (author) / Øverli Jan Arve (author)

Published in:

Nordic Concrete Research, Vol 60, Iss 1, Pp 51-66 (2019)

Publication date:

2019

ISSN:

DOI:

https://doi.org/10.2478/ncr-2019-0011

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

Unknown

Keywords:

lightweight aggregate concrete , testing in compression , strain level , centric and eccentric loading , stress gradients , Building construction , TH1-9745

Metadata by DOAJ is licensed under CC BY-SA 1.0

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