Fracture Energy of High-Strength Concrete in Compression

H. Dahl; Rune Brincker

Fracture Energy of High-Strength Concrete in Compression

H. Dahl, Rune Brincker

Research output: Contribution to book/anthology/report/conference proceeding › Article in proceeding › Research › peer-review

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Abstract

Compression tests are usually carried out in load control. This implies the termination of the test at the peak point of the load-displacement curve, while the fracture under these conditions becomes unstable at the descending branch of the load displacement relation. However, the descending branch is essential for understanding the fracture mechanism of concrete in compression. In this paper a series of tests is reported, carried out for the purpose of studying the fracture mechanical properties of concrete in compression. Including the measurement and study of the descending branch, a new experimental method has been used to investigate the influence of boundary conditions, loading rate, size effects and the influence of the strength on the fracture energy of high-strength concrete over the range 70 MPa to 150 MPa, expressed in nominal values.

Original language	English
Title of host publication	Proc. Int. Conf. on Fracture of Concrete and Rock : Cardiff, 20.-22. Sept. 1989
Publisher	Elsevier
Publication date	1989
Pages	523-536
ISBN (Print)	1851664149
Publication status	Published - 1989
Event	Fracture of Concrete and Rock - Duration: 19 May 2010 → …

Conference

Conference	Fracture of Concrete and Rock
Period	19/05/2010 → …

Keywords

Concrete
High-Strength Concrete
Concrete Fractures
Compression Tests
Fracture Mechanics

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title = "Fracture Energy of High-Strength Concrete in Compression",

abstract = "Compression tests are usually carried out in load control. This implies the termination of the test at the peak point of the load-displacement curve, while the fracture under these conditions becomes unstable at the descending branch of the load displacement relation. However, the descending branch is essential for understanding the fracture mechanism of concrete in compression. In this paper a series of tests is reported, carried out for the purpose of studying the fracture mechanical properties of concrete in compression. Including the measurement and study of the descending branch, a new experimental method has been used to investigate the influence of boundary conditions, loading rate, size effects and the influence of the strength on the fracture energy of high-strength concrete over the range 70 MPa to 150 MPa, expressed in nominal values.",

keywords = "Concrete, High-Strength Concrete, Concrete Fractures, Compression Tests, Fracture Mechanics, Concrete, High-Strength Concrete, Concrete Fractures, Compression Tests, Fracture Mechanics",

author = "H. Dahl and Rune Brincker",

note = "ISSN ; -; Fracture of Concrete and Rock ; Conference date: 19-05-2010",

year = "1989",

language = "English",

isbn = "1851664149",

pages = "523--536",

booktitle = "Proc. Int. Conf. on Fracture of Concrete and Rock : Cardiff, 20.-22. Sept. 1989",

publisher = "Elsevier",

address = "United Kingdom",

}

TY - GEN

T1 - Fracture Energy of High-Strength Concrete in Compression

AU - Dahl, H.

AU - Brincker, Rune

N1 - ISSN ; -

PY - 1989

Y1 - 1989

N2 - Compression tests are usually carried out in load control. This implies the termination of the test at the peak point of the load-displacement curve, while the fracture under these conditions becomes unstable at the descending branch of the load displacement relation. However, the descending branch is essential for understanding the fracture mechanism of concrete in compression. In this paper a series of tests is reported, carried out for the purpose of studying the fracture mechanical properties of concrete in compression. Including the measurement and study of the descending branch, a new experimental method has been used to investigate the influence of boundary conditions, loading rate, size effects and the influence of the strength on the fracture energy of high-strength concrete over the range 70 MPa to 150 MPa, expressed in nominal values.

AB - Compression tests are usually carried out in load control. This implies the termination of the test at the peak point of the load-displacement curve, while the fracture under these conditions becomes unstable at the descending branch of the load displacement relation. However, the descending branch is essential for understanding the fracture mechanism of concrete in compression. In this paper a series of tests is reported, carried out for the purpose of studying the fracture mechanical properties of concrete in compression. Including the measurement and study of the descending branch, a new experimental method has been used to investigate the influence of boundary conditions, loading rate, size effects and the influence of the strength on the fracture energy of high-strength concrete over the range 70 MPa to 150 MPa, expressed in nominal values.

KW - Concrete

KW - High-Strength Concrete

KW - Concrete Fractures

KW - Compression Tests

KW - Fracture Mechanics

KW - Concrete

KW - High-Strength Concrete

KW - Concrete Fractures

KW - Compression Tests

KW - Fracture Mechanics

M3 - Article in proceeding

SN - 1851664149

SP - 523

EP - 536

BT - Proc. Int. Conf. on Fracture of Concrete and Rock : Cardiff, 20.-22. Sept. 1989

PB - Elsevier

T2 - Fracture of Concrete and Rock

Y2 - 19 May 2010

ER -

Fracture Energy of High-Strength Concrete in Compression

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