Abstract

In the monolithic precast concrete shear-wall structure, the bonding property of cast-in-situ joints to precast concrete walls is important to ensure the entire structural performance. Aiming to the vertical joint of precast concrete walls, an experimental study was carried out considering the factors including the strength of precast and joint concretes, as well as the interface processing and casting age of precast concrete. The micro-expansion self-compacting concrete was used for the cast-in-situ joints. The interfacial bonding strength between joint and precast concrete was measured by splitting tensile test. Results show that the interfacial bonding strength was benefited from the increasing strength of joint concrete and the spraying binder paste on the interface of precast concrete, and unbenefited from the overtime storage of precast concrete. The washed rough surface with exposed aggregates improved the interfacial bonding strength, which increased with the increasing roughness. Based on the test results, the limits of the strength grade of joint concrete and the roughness of washed rough surface are proposed to get the interfacial bonding strength equivalent to the tensile strength of precast concrete. Meanwhile, the spraying of binder paste on precast concrete is a good choice, the storage time of precast components is a better limit within 28 days.

Highlights

  • In recent years in China, the assembling of buildings with precast concrete structure has become an advanced construction technology with features of green, environmental protection and energy conservation for the building industry [1,2]

  • The strength grades of precast and cast-in-situ concretes, the interface conditions and storage time of precast concrete were considered as the experimental factors in this paper

  • The interface roughness of precast concrete was measured by sand patch test

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Summary

Introduction

In recent years in China, the assembling of buildings with precast concrete structure has become an advanced construction technology with features of green, environmental protection and energy conservation for the building industry [1,2]. Several kinds of roughening methods have been applied, including indentation with steel bars, scraping with iron combs of different-shaped saw-teeth, artificial chipping, mechanical napping, sand blasting, washing to expose aggregates with pressure water, groove keys and rough formwork. This makes the interface zigzag with concrete protuberances or turns into a zone with certain thickness composited by the cohesive layer of binder paste and the permeable layer of interaction [13,17,21]. The measures to satisfy the interfacial bonding strength equivalent to tensile strength of precast concrete are suggested

Preparation of Concretes
Mechanical Properties of Concretes
Formation of Interface
Preparation of Bond Specimens and Test Method
Effect of Cast-In-Situ Concrete Strength
Effect of Interface of Precast Concrete
Effect of Interface Adhesion Agent
Effect of Roughness of Washing Exposed Aggregates
C30 Precast Concrete
Effect of Storage Time of Precast Concrete
Findings
Conclusions

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