Size effect on the dynamic tensile characteristics of concrete subjected to a high loading rate

Mohammad Mohsin Khan; Manish Yadav; Abhishek Rajput

doi:10.1680/jmacr.24.00268

Size effect on the dynamic tensile characteristics of concrete subjected to a high loading rate

Mohammad Mohsin Khan^*
, Manish Yadav
, Abhishek Rajput

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

The influences of loading rate and specimen size on the dynamic tensile behaviour of standard concrete (SC) (grade M35) and high-strength concrete (HSC) (grade M60) were investigated using the split Hopkinson pressure bar apparatus. The dynamic splitting tensile strength of the SC increased from 10.43 MPa to 18.56 MPa as the loading rate was increased from 130.3 GPa/s to 412.3 GPa/s. Similarly, for the HSC, the dynamic splitting tensile strength increased from 12.0 MPa to 19.86 MPa with an increase in loading rate from 214.5 GPa/s to 492.9 GPa/s. The larger specimens, with higher rate sensitivity, showed higher tensile strength and dynamic increase factor (DIF) owing to lateral inertia and crack propagation. The quasi-static size effect law was modified for dynamic loading conditions and the critical stress rates were 59.2 GPa/s for SC and 88.8 GPa/s for HSC. The modified DIF model of CEB-FIP, considering strain rate and size effect simultaneously, strongly supported the experimental DIFs with deviations within ±13%. The splitting tensile strength of SC and HSC calculated using a modified equation for brittle rock materials showed a deviation of ±10% of the experimental values.

Original language	English
Pages (from-to)	420-433
Number of pages	14
Journal	Magazine of Concrete Research
Volume	77
Issue number	7-8
DOIs	https://doi.org/10.1680/jmacr.24.00268
State	Published - 28 Mar 2025
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2025 ICE Publishing. All rights reserved.

Keywords

characteristic stress & strain rates
critical strain rate
dynamic tensile strength
fragmentation
impact
loading rate & size effects
plain concrete
split Hopkinson pressure bar
tensile properties

ASJC Scopus subject areas

Civil and Structural Engineering
Building and Construction
General Materials Science

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10.1680/jmacr.24.00268

Cite this

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title = "Size effect on the dynamic tensile characteristics of concrete subjected to a high loading rate",

abstract = "The influences of loading rate and specimen size on the dynamic tensile behaviour of standard concrete (SC) (grade M35) and high-strength concrete (HSC) (grade M60) were investigated using the split Hopkinson pressure bar apparatus. The dynamic splitting tensile strength of the SC increased from 10.43 MPa to 18.56 MPa as the loading rate was increased from 130.3 GPa/s to 412.3 GPa/s. Similarly, for the HSC, the dynamic splitting tensile strength increased from 12.0 MPa to 19.86 MPa with an increase in loading rate from 214.5 GPa/s to 492.9 GPa/s. The larger specimens, with higher rate sensitivity, showed higher tensile strength and dynamic increase factor (DIF) owing to lateral inertia and crack propagation. The quasi-static size effect law was modified for dynamic loading conditions and the critical stress rates were 59.2 GPa/s for SC and 88.8 GPa/s for HSC. The modified DIF model of CEB-FIP, considering strain rate and size effect simultaneously, strongly supported the experimental DIFs with deviations within ±13\%. The splitting tensile strength of SC and HSC calculated using a modified equation for brittle rock materials showed a deviation of ±10\% of the experimental values.",

keywords = "characteristic stress \& strain rates, critical strain rate, dynamic tensile strength, fragmentation, impact, loading rate \& size effects, plain concrete, split Hopkinson pressure bar, tensile properties",

author = "Khan, \{Mohammad Mohsin\} and Manish Yadav and Abhishek Rajput",

year = "2025",

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doi = "10.1680/jmacr.24.00268",

language = "English",

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TY - JOUR

T1 - Size effect on the dynamic tensile characteristics of concrete subjected to a high loading rate

AU - Khan, Mohammad Mohsin

AU - Yadav, Manish

AU - Rajput, Abhishek

PY - 2025/3/28

Y1 - 2025/3/28

N2 - The influences of loading rate and specimen size on the dynamic tensile behaviour of standard concrete (SC) (grade M35) and high-strength concrete (HSC) (grade M60) were investigated using the split Hopkinson pressure bar apparatus. The dynamic splitting tensile strength of the SC increased from 10.43 MPa to 18.56 MPa as the loading rate was increased from 130.3 GPa/s to 412.3 GPa/s. Similarly, for the HSC, the dynamic splitting tensile strength increased from 12.0 MPa to 19.86 MPa with an increase in loading rate from 214.5 GPa/s to 492.9 GPa/s. The larger specimens, with higher rate sensitivity, showed higher tensile strength and dynamic increase factor (DIF) owing to lateral inertia and crack propagation. The quasi-static size effect law was modified for dynamic loading conditions and the critical stress rates were 59.2 GPa/s for SC and 88.8 GPa/s for HSC. The modified DIF model of CEB-FIP, considering strain rate and size effect simultaneously, strongly supported the experimental DIFs with deviations within ±13%. The splitting tensile strength of SC and HSC calculated using a modified equation for brittle rock materials showed a deviation of ±10% of the experimental values.

AB - The influences of loading rate and specimen size on the dynamic tensile behaviour of standard concrete (SC) (grade M35) and high-strength concrete (HSC) (grade M60) were investigated using the split Hopkinson pressure bar apparatus. The dynamic splitting tensile strength of the SC increased from 10.43 MPa to 18.56 MPa as the loading rate was increased from 130.3 GPa/s to 412.3 GPa/s. Similarly, for the HSC, the dynamic splitting tensile strength increased from 12.0 MPa to 19.86 MPa with an increase in loading rate from 214.5 GPa/s to 492.9 GPa/s. The larger specimens, with higher rate sensitivity, showed higher tensile strength and dynamic increase factor (DIF) owing to lateral inertia and crack propagation. The quasi-static size effect law was modified for dynamic loading conditions and the critical stress rates were 59.2 GPa/s for SC and 88.8 GPa/s for HSC. The modified DIF model of CEB-FIP, considering strain rate and size effect simultaneously, strongly supported the experimental DIFs with deviations within ±13%. The splitting tensile strength of SC and HSC calculated using a modified equation for brittle rock materials showed a deviation of ±10% of the experimental values.

KW - characteristic stress & strain rates

KW - critical strain rate

KW - dynamic tensile strength

KW - fragmentation

KW - impact

KW - loading rate & size effects

KW - plain concrete

KW - split Hopkinson pressure bar

KW - tensile properties

UR - https://www.scopus.com/pages/publications/105003236494

U2 - 10.1680/jmacr.24.00268

DO - 10.1680/jmacr.24.00268

M3 - Article

AN - SCOPUS:105003236494

SN - 0024-9831

VL - 77

SP - 420

EP - 433

JO - Magazine of Concrete Research

JF - Magazine of Concrete Research

IS - 7-8

ER -

Size effect on the dynamic tensile characteristics of concrete subjected to a high loading rate

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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