Abstract

This study investigated the influence of ordinary Portland cement (OPC) and reactive and non-reactive mineral additives on the characteristic microstructure and mechanical performance of ultra-high-performance, strain-hardening cementitious composites (UHP–SHCCs). Nine mixes of cementitious composites were considered composed of reactive and non-reactive materials, such as ground granulated blast furnace slag (GGBS), silica fume (SF), cement kiln dust (CKD), and silica flour. Compressive strength and direct tensile tests were performed on the nine mixes cured for 7 d and 28 d. The test result was analyzed based on microstructural inspections, including thermogravimetry and scanning electron microscopy. The test result and analysis showed that the microstructural property of the UHP–SHCC impacted the compressive strength and the tensile behavior and also influenced the fiber-matrix interaction. Although most of the 7 d cured specimens did not exhibit notable strain-hardening behaviors, the specimen containing the CKD exhibited a tensile strength of 11.6 MPa and a very high strain capacity of 7.5%. All the specimens with OPC, silica flour, GGBS, or SF exhibited considerably improved tensile behavior at 28 d. The specimen with only OPC as a binder could achieve the tensile strength of 11.6 MPa and strain capacity of 6.2%.

Highlights

  • IntroductionNumerous studies [1,2,3,4] have been conducted to improve the mechanical properties of cementitious composites concerning both strength and ductility

  • Slurry infiltrated concrete (SIFCON), engineered cementitious composite (ECC), reactive powder concrete (RPC), and ultra-high-performance concrete (UHPC) are a few strain-hardening cementitious composites (SHCCs) that have been investigated in the past [1,2,3,4]

  • The nine mixes consisted of ordinary Portland cement (OPC) and reactive and non-reactive mineral additives, namely, silica flour, ground granulated blast furnace slag (GGBS), silica fume (SF), and cement kiln dust (CKD) that substituted a portion of the OPC in each specimen

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Summary

Introduction

Numerous studies [1,2,3,4] have been conducted to improve the mechanical properties of cementitious composites concerning both strength and ductility. One of the effective ways for enhancing tensile ductility is to incorporate reinforcing fibers into cementitious composites. Various methods of reinforcing cementitious composites with steel or polymeric fibers have been developed and improved upon by researchers. Slurry infiltrated concrete (SIFCON), engineered cementitious composite (ECC), reactive powder concrete (RPC), and ultra-high-performance concrete (UHPC) are a few strain-hardening cementitious composites (SHCCs) that have been investigated in the past [1,2,3,4]. ECC and UHPC are the two most representative SHCCs that continue to be improved upon and applied in structural elements

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