Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Experimental investigation of strengthening of masonry-infilled RC frames using prefabricated engineered cementitious composite panels
Highlights Experimental study on strengthening masonry-infilled RC frames. Retrofitting method, prefabricated ECC panel, enhances the strength up to 200%. Initial stiffness and energy dissipation are increased up to 130% and 273%. Two simple connections are proposed to attach ECC panels to the masonry wall. ECC panels prevent out-of-plane collapse and local damages.
Abstract Cement-based composite materials such as engineered cementitious composites (ECCs) are appropriate for retrofitting buildings because of their high tensile strength and strain. This research evaluated the lateral behavior of strengthened masonry-infilled reinforced concrete (RC) frames reinforced with prefabricated engineered cementitious composite (PECC) panels. The goals of the proposed technique were to increase the energy absorption capacity and the lateral capacity of infilled RC frames and protect the stability of the masonry infills after cracking and brittle failure in the out-of-plane direction, which can contribute to the seismic vulnerability of a structure. The mechanical characteristics of the ECC materials, such as the tensile strength and strain and multiple cracks, were first determined. Then, nine diagonal compression tests were done on masonry panels strengthened with PECC panels. In these tests, two types of connection were compared and the best one was selected. Next, an existing one-story RC moment frame with one bay was scaled down for testing under lateral cyclic loading. The results indicated that the strength, deformation, stiffness, and energy absorption of the RC frames increased considerably. Additionally, the effects of the precast panel thickness, performance of the connections, and type of damage sustained were compared between the different types of tests. Overall, the PECC panels connected to the infill wall with the proposed connections improved the lateral behavior of the system in the in-plane direction and markedly mitigated the risk of collapse by confining the masonry infill wall.
Experimental investigation of strengthening of masonry-infilled RC frames using prefabricated engineered cementitious composite panels
Highlights Experimental study on strengthening masonry-infilled RC frames. Retrofitting method, prefabricated ECC panel, enhances the strength up to 200%. Initial stiffness and energy dissipation are increased up to 130% and 273%. Two simple connections are proposed to attach ECC panels to the masonry wall. ECC panels prevent out-of-plane collapse and local damages.
Abstract Cement-based composite materials such as engineered cementitious composites (ECCs) are appropriate for retrofitting buildings because of their high tensile strength and strain. This research evaluated the lateral behavior of strengthened masonry-infilled reinforced concrete (RC) frames reinforced with prefabricated engineered cementitious composite (PECC) panels. The goals of the proposed technique were to increase the energy absorption capacity and the lateral capacity of infilled RC frames and protect the stability of the masonry infills after cracking and brittle failure in the out-of-plane direction, which can contribute to the seismic vulnerability of a structure. The mechanical characteristics of the ECC materials, such as the tensile strength and strain and multiple cracks, were first determined. Then, nine diagonal compression tests were done on masonry panels strengthened with PECC panels. In these tests, two types of connection were compared and the best one was selected. Next, an existing one-story RC moment frame with one bay was scaled down for testing under lateral cyclic loading. The results indicated that the strength, deformation, stiffness, and energy absorption of the RC frames increased considerably. Additionally, the effects of the precast panel thickness, performance of the connections, and type of damage sustained were compared between the different types of tests. Overall, the PECC panels connected to the infill wall with the proposed connections improved the lateral behavior of the system in the in-plane direction and markedly mitigated the risk of collapse by confining the masonry infill wall.
Experimental investigation of strengthening of masonry-infilled RC frames using prefabricated engineered cementitious composite panels
Ahmadi, Mohammad Hossein (Autor:in) / Nateghi-Alahi, Fariborz (Autor:in)
Engineering Structures ; 253
07.12.2021
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Strengthening masonry infill panels using engineered cementitious composites
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Strengthening masonry infill panels using engineered cementitious composites
| Online Contents | 2015
Strengthening masonry infill panels using engineered cementitious composites
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