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Strength of bolted steel structural members under eccentric tension

Kazuma Nagasato / Kikuo Ikarashi / Kazuya Mitsui

Abstract The effective cross‐sectional area method for the outstanding leg is utilized as an ineffective area to evaluate the strength in the present Japanese design standard. Given that this evaluation method is fundamentally premised on experimental outcomes derived from relatively thick plates, it must be extended to brace members composed of thin plates. In this study, we conduct bolt joint experiments and numerical analyses on thin‐plate angles and channel members, with the aim to elucidate the elements influencing the efficiency of the joint. We propose a unified bolt joint strength evaluation formula that also considers thin‐plate members.

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Strength of bolted steel structural members under eccentric tension

Kazuma Nagasato / Kikuo Ikarashi / Kazuya Mitsui

Abstract The effective cross‐sectional area method for the outstanding leg is utilized as an ineffective area to evaluate the strength in the present Japanese design standard. Given that this evaluation method is fundamentally premised on experimental outcomes derived from relatively thick plates, it must be extended to brace members composed of thin plates. In this study, we conduct bolt joint experiments and numerical analyses on thin‐plate angles and channel members, with the aim to elucidate the elements influencing the efficiency of the joint. We propose a unified bolt joint strength evaluation formula that also considers thin‐plate members.

Strength of bolted steel structural members under eccentric tension

Kazuma Nagasato / Kikuo Ikarashi / Kazuya Mitsui

Abstract The effective cross‐sectional area method for the outstanding leg is utilized as an ineffective area to evaluate the strength in the present Japanese design standard. Given that this evaluation method is fundamentally premised on experimental outcomes derived from relatively thick plates, it must be extended to brace members composed of thin plates. In this study, we conduct bolt joint experiments and numerical analyses on thin‐plate angles and channel members, with the aim to elucidate the elements influencing the efficiency of the joint. We propose a unified bolt joint strength evaluation formula that also considers thin‐plate members.

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Title:

Strength of bolted steel structural members under eccentric tension

Contributors:

Kazuma Nagasato (author) / Kikuo Ikarashi (author) / Kazuya Mitsui (author)

Published in:

Japan Architectural Review, Vol 6, Iss 1, Pp n/a-n/a (2023)

Publication date:

2023

ISSN:

DOI:

https://doi.org/10.1002/2475-8876.12409

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

Unknown

Keywords:

angle member , bolted connection , connection efficiency , connection strength , eccentric connection , Architecture , NA1-9428 , Architectural engineering. Structural engineering of buildings , TH845-895

Metadata by DOAJ is licensed under CC BY-SA 1.0

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