Detail publikace

Experimental Verification of the Shear Load-Carrying Capacity of Adhesively Bonded Joints

ŠTRBA, M. KARMAZÍNOVÁ, M.

Originální název

Experimental Verification of the Shear Load-Carrying Capacity of Adhesively Bonded Joints

Typ

článek v časopise ve Scopus, Jsc

Jazyk

angličtina

Originální abstrakt

This paper is focused on the description of particular results in case of loading tests of the adhesively bonded joints of glass-fibre reinforced plastic composite members subjected to a shear force. It describes the determination of their characteristic and design values of load-carrying capacity according to “Design assisted by testing” method given by Eurocode, as well as their actual behaviour through the modes of failure. The results have been obtained and evaluated on the basis of group of loading tests divided into five series of specimens with a slightly different geometric configuration as a part of the solution of the research project focused on the use of FRP composite members and their advantages in construction of civil engineering. All the performed experiments have been subsequently taken as a pilot tests for the verification of numeric models of the designed connection details.

Klíčová slova

composite members, adhesively bonded joints, loading tests, shear resistance, failure modes, load-carrying capacity determination, design assisted by testing

Autoři

ŠTRBA, M.; KARMAZÍNOVÁ, M.

Vydáno

21. 2. 2017

Nakladatel

World Scientific and Engineering Academy and Society

ISSN

1991-8747

Periodikum

WSEAS TRANSACTIONS ON APPLIED AND THEORETICAL MECHANICS

Ročník

12

Číslo

2017

Stát

Francouzská republika

Strany od

11

Strany do

16

Strany počet

6

BibTex

@article{BUT133523,
  author="Michal {Štrba} and Marcela {Karmazínová}",
  title="Experimental Verification of the Shear Load-Carrying Capacity of Adhesively Bonded Joints",
  journal="WSEAS TRANSACTIONS ON APPLIED AND THEORETICAL MECHANICS",
  year="2017",
  volume="12",
  number="2017",
  pages="11--16",
  issn="1991-8747"
}