Mechanical characteristics and application of a new timber joint using a combination of steel plates, drift-pins and structural adhesive

Taiki KUMAGAI; Ayaka OGASAWARA; Masaki MAEDA

doi:10.3130/aijt.26.911

Mechanical characteristics and application of a new timber joint using a combination of steel plates, drift-pins and structural adhesive

Taiki KUMAGAI, Ayaka OGASAWARA, Masaki MAEDA

ENG - Architecture and Building Science

Research output: Contribution to journal › Article › peer-review

Abstract

In this study, new timber joints utilizing structural adhesive that can ensure higher stiffness and strength were developed. Experimental testing was conducted to confirm the lateral capacity performance of the proposed joint. To develop structural design methods using the joint, the local shear characteristics of the proposed joint were confirmed by structural component tests and finite element analysis. By modeling and analyzing building frames utilizing the joint, it was found that modifying the geometry of the steel plates to ensure yielding or plasticizing the adhesive layer results in better ductility and energy dissipation characteristics.

Original language	English
Pages (from-to)	911-916
Number of pages	6
Journal	AIJ Journal of Technology and Design
Volume	26
Issue number	64
DOIs	https://doi.org/10.3130/aijt.26.911
Publication status	Published - 2020 Oct 20

Keywords

Drift pinned joint
FEM analysis
Middle scale timber frame structure
Response spectrum
Structural-adhesive

ASJC Scopus subject areas

Architecture
Building and Construction

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10.3130/aijt.26.911

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abstract = "In this study, new timber joints utilizing structural adhesive that can ensure higher stiffness and strength were developed. Experimental testing was conducted to confirm the lateral capacity performance of the proposed joint. To develop structural design methods using the joint, the local shear characteristics of the proposed joint were confirmed by structural component tests and finite element analysis. By modeling and analyzing building frames utilizing the joint, it was found that modifying the geometry of the steel plates to ensure yielding or plasticizing the adhesive layer results in better ductility and energy dissipation characteristics.",

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author = "Taiki KUMAGAI and Ayaka OGASAWARA and Masaki MAEDA",

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AU - KUMAGAI, Taiki

AU - OGASAWARA, Ayaka

AU - MAEDA, Masaki

PY - 2020/10/20

Y1 - 2020/10/20

N2 - In this study, new timber joints utilizing structural adhesive that can ensure higher stiffness and strength were developed. Experimental testing was conducted to confirm the lateral capacity performance of the proposed joint. To develop structural design methods using the joint, the local shear characteristics of the proposed joint were confirmed by structural component tests and finite element analysis. By modeling and analyzing building frames utilizing the joint, it was found that modifying the geometry of the steel plates to ensure yielding or plasticizing the adhesive layer results in better ductility and energy dissipation characteristics.

AB - In this study, new timber joints utilizing structural adhesive that can ensure higher stiffness and strength were developed. Experimental testing was conducted to confirm the lateral capacity performance of the proposed joint. To develop structural design methods using the joint, the local shear characteristics of the proposed joint were confirmed by structural component tests and finite element analysis. By modeling and analyzing building frames utilizing the joint, it was found that modifying the geometry of the steel plates to ensure yielding or plasticizing the adhesive layer results in better ductility and energy dissipation characteristics.

KW - Drift pinned joint

KW - FEM analysis

KW - Middle scale timber frame structure

KW - Response spectrum

KW - Structural-adhesive

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JO - AIJ Journal of Technology and Design

JF - AIJ Journal of Technology and Design

IS - 64

ER -

Mechanical characteristics and application of a new timber joint using a combination of steel plates, drift-pins and structural adhesive

Abstract

Keywords

ASJC Scopus subject areas

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