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Dynamic mechanical properties and damage constitutive model of high-toughness recycled aggregate concrete under high strain rate impact loads

Changqing Wang, Jian Guo, Xinzheng Wang, Youchao Zhang, Zhiming Ma

2025Journal of Building Engineering43 citationsDOIOpen Access PDF

Abstract

High-toughness recycled aggregate concrete (HTRAC) demonstrates significant advantages in the field of green building materials , but its performance deficiencies under impact loads limit its widespread application. In this study, plain recycled aggregate concrete (PRAC) and HTRAC specimens were prepared and tested using Split Hopkinson Pressure Bar (SHPB) tests to evaluate their mechanical performance at different strain rates . At a strain rate of 1 × 10 2 /s, the peak stress, peak strain, and ultimate strain of HTRAC increased by 0.87 times, 1.18 times, and 3.2 times, respectively. The proposed dynamic increase factor model accurately predicts the experimental results and a dynamic stress-strain equation considering strain rate effects was established. A novel modulus degradation factor model based on secant modulus was defined, exploring the evolution of damage variables with strain rate. A dynamic damage constitutive model based on the equivalent strain hypothesis was developed. This model provides theoretical support for the application of HTRAC in practical engineering.

Topics & Concepts

Aggregate (composite)Materials scienceStrain rateConstitutive equationToughnessComposite materialStrain (injury)Structural engineeringEngineeringFinite element methodInternal medicineMedicineRecycled Aggregate Concrete PerformanceInnovative concrete reinforcement materialsInnovations in Concrete and Construction Materials
Dynamic mechanical properties and damage constitutive model of high-toughness recycled aggregate concrete under high strain rate impact loads | Litcius