On the applicability limits of double-sided self-pierce riveting

Luis M Alves; Marcel Moghadam; Rafael M Afonso; Chris V Nielsen; Paulo AF Martins

Informações chave

Autores:

Luis M Alves (Luís Manuel Mendonça Alves); Marcel Moghadam; Rafael M Afonso; Chris V Nielsen; Paulo AF Martins (Paulo António Firme Martins)

Publicado em

13/04/2022

Resumo

<jats:p> This paper revisits double-sided self-pierce riveting to discuss the applicability limits related to the thickness of the sheets to be used in hidden lap joint connections. Special emphasis is given to thin sheets with thicknesses that are significantly smaller than those earlier reported in the literature. The overall methodology draws from experimental and numerical simulation to aspects related to the working principle of double-sided self-pierce riveting and geometric scalability of the chamfered tubular rivets. Results show that double-sided self-pierce riveting can be successfully applied in thin sheets and must be seen as an alternative to well-established joining processes such as conventional self-pierce riveting and resistance spot welding. In case of the latter, comparisons are made against double-sided self-pierce riveting regarding the force and energy requirements to assemble and destroy the resulting lap joints. Destruction of the joints is performed by means of shear tests and provides the maximum force and energy that both types of lap joints are capable to withstand without failure. </jats:p>

Detalhes da publicação

Autores da comunidade :

Luís Manuel Mendonça Alves
ist13976
IST > LAETA
Laboratório Associado de Energia, Transportes e Aeronáutica
IST > IDMEC
Instituto de Engenharia Mecânica
IST > DEM
Departamento de Engenharia Mecânica
De: cienciavitae
ID: 3218210
Paulo António Firme Martins
ist12470
IST > LAETA
Laboratório Associado de Energia, Transportes e Aeronáutica
IST > IDMEC
Instituto de Engenharia Mecânica
IST > DEM
Departamento de Engenharia Mecânica
De: orcid
ID: 111405222

Versão da publicação

VoR - Versão publicada

Editora

SAGE Publications

Título do contentor da publicação

Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications

Primeira página ou número de artigo

2027

Última página

2036

Volume

236

Fascículo

10

ISSN

1464-4207

DOI

10.1177/14644207221093627

Domínio Científico (FOS)

mechanical-engineering - Engenharia Mecânica

Palavras-chave

Mechanical Engineering
General Materials Science

Idioma da publicação (código ISO)

eng - Inglês

Identificador alternativo (URI)

http://www.scopus.com/inward/record.url?eid=2-s2.0-85129336385&partnerID=MN8TOARS

Acesso à publicação:

Acesso apenas a metadados