On the extension of walraven’s aggregate interlock model based on laser scanned crack surface

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On the extension of walraven’s aggregate interlock model based on laser scanned crack surface

Conference Paper (2019)

Author(s)

Stamatia Presvyri (Student TU Delft)

Yuguang Yang (TU Delft - Concrete Structures)

Max A.N. Hendriks (TU Delft - Applied Mechanics, Norwegian University of Science and Technology (NTNU))

Jeanette Visser (TNO)

D. A. Hordijk (TU Delft - Concrete Structures)

Research Group

Concrete Structures

Shear Aggregate interlock Laser scan Crack surface

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https://resolver.tudelft.nl/uuid:2f9b6053-c27e-4842-aa97-49c51722e40f

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Publication Year

2019

Language

English

Research Group

Concrete Structures

Pages (from-to)

937-944

ISBN (electronic)

9782940643004

Abstract

With the recent developments in modelling the shear behaviour of reinforcement concrete (RC) members without transverse reinforcement, the contribution of aggregate interlock has been more and more recognized as one of the critical components in the shear resistance of RC members. This paper presents a study on the aggregate interlock action utilizing laser scanned crack surfaces including the shear crack surface of a 1.2 m concrete beam. The study extends the classic aggregate interlock model proposed by Walraven to enable the possibility of employing modern measurement technology.

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