Behrooz Keshavarzi scite author profile

Behrooz Keshavarzi

5Publications

37Citation Statements Received

21Citation Statements Given

How they've been cited

164

How they cite others

Affiliations

SA Technologies (United States), North Carolina State University

Publications

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Fatigue Performance Prediction of Asphalt Pavements with FlexPAVE^TM, the S-VECD Model, and D^R Failure Criterion

Wang

Keshavarzi

Kim

2018

Transportation Research Record: Journal of the Transportation R

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Reliable predictions of asphalt materials and pavement performance are important elements in mixture design, mechanistic-empirical pavement design, and performance-related specifications. This paper presents FlexPAVE™, a pavement performance prediction program. FlexPAVE™ is a three-dimensional finite element program that is capable of moving load analysis under realistic climatic conditions. It utilizes the simplified viscoelastic continuum damage (S-VECD) model to predict asphalt pavement fatigue life. This S-VECD model currently incorporates the so-called GR failure criterion to define the failure of asphalt mixtures. In this study, a new failure criterion for the S-VECD model, designated as the DR criterion, has been developed to remedy some of the shortcomings of the GR failure criterion. This DR criterion has been implemented successfully in FlexPAVETM. In this paper, FlexPAVETM is used to simulate the fatigue performance of field test sections. These test sections include various pavement structures, such as perpetual pavements and accelerated load facility test pavements in the United States, South Korea, and China, as well as various materials, such as warm-mix asphalt, reclaimed asphalt pavement, and mixtures with modified binders. The DR-based FlexPAVETM predictions have yielded good agreement with the field measurements and show more reasonable trends compared to predictions obtained using the GR failure criterion.

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Effects of aging on asphalt mixture and pavement performance

Saleh

Keshavarzi

Rad

et al. 2020

Construction and Building Materials

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A viscoelastic-based model for predicting the strength of asphalt concrete in direct tension

Keshavarzi

Kim

2016

Construction and Building Materials

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Fatigue Performance Analysis of Pavements with RAP Using Viscoelastic Continuum Damage Theory

2018

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A dissipated pseudo strain energy-based failure criterion for thermal cracking and its verification using thermal stress restrained specimen tests

Keshavarzi

Kim

2020

Construction and Building Materials

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