Innovative Damage and Constitutive Modeling of Fiber Reinforced Cementitious Composites Subjected to Earthquake Loads

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Abstract/Contents

Abstract: This one-year research project focuses on innovative micromechanical modeling of multiphase fiber reinforced concrete. This research is an extension of previous research conducted by the CUREe Principal Investigator in collaboration with research engineers at Kajima Technical Research Institute. In particular, this research investigates: (a) the elastic stress fields arising from the single fiber pullout system by using both the analytical and finite element methods, and (b) the local interactions and effective transverse elastic properties of two-dimensional two-phase unidirectionally aligned, randomly located fiber reinforced concrete. The research conducted under this CUREe-Kajima project enables us to accurately predict the local and overall mechanical behavior and performance of advanced high-strength fiber reinforced concrete for use in buildings and infrastructure systems.

Type of resource	text
Date created	October 12, 1996

Location	https://purl.stanford.edu/mx748sj1903

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Preferred Citation: Nobuta, Yoshinobu and Horikoshi, Kiyomi and Ju, JW and Chou, LC and Zhang, XD. (1996). Innovative Damage and Constitutive Modeling of Fiber Reinforced Cementitious Composites Subjected to Earthquake Loads. CUREE-Kajima Research Report CKII-05. Stanford Digital Repository. Available at: http://purl.stanford.edu/mx748sj1903

CUREE

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