• 제목/요약/키워드: Metallic Connection Components

검색결과 3건 처리시간 0.018초

피뢰시스템 구성부품 중 금속접속재의 성능시험 및 결과분석 (An Analysis of Performance Testing for Metallic Connection Components of Lightning Protection System)

  • 이주철;이안기;김재철
    • 조명전기설비학회논문지
    • /
    • 제28권7호
    • /
    • pp.69-74
    • /
    • 2014
  • Recently, IEC published new standards about the requirements and tests for lightning protection system(LPS) components. If components are used for LPS, they should comply with the IEC standards. This paper, we collected six specimens for the metallic connection components using in domestic, and it tested for withstand lightning current which according to the IEC 62561-1. As a result, only one specimen meet this performance requirement. The specimen is the metallic connection component with four bolts fixed. Therefor, when designing of LPS in domestic, the metallic connection components shall be taken into account for the selection of the withstand lightning current. In addition, we need to develop for LPS components product and the national standards.

FE simulation of S-N curves for a riveted connection using two-stage fatigue models

  • Correia, Jose A.F.O.;de Jesus, Abilio M.P.;Silva, Antonio L.L.;Pedrosa, Bruno;Rebelo, Carlos;Calcada, Rui A.B.
    • Advances in Computational Design
    • /
    • 제2권4호
    • /
    • pp.333-348
    • /
    • 2017
  • Inspections of ancient metallic bridges have illustrated fatigue cracking in riveted connections. This paper presents a comparison between two alternative finite element (FE) models proposed to predict the fatigue strength of a single shear and single rivet connection. The first model is based on solid finite elements as well as on contact elements, to simulate contact between the components of the connection. The second model is built using shell finite elements in order to model the plates of the riveted connection. Fatigue life predictions are carried out for the shear splice, integrating both crack initiation and crack propagation lives, resulting from the two alternative FE models. Global fatigue results, taking into account several clamping stresses on rivet, are compared with available experimental results. Proposed comparisons between predictions and experimental data illustrated that the proposed two-stage model yields consistent results.

Creating damage tolerant intersections in composite structures using tufting and 3D woven connectors

  • Clegg, Harry M.;Dell'Anno, Giuseppe;Partridge, Ivana K.
    • Advances in aircraft and spacecraft science
    • /
    • 제6권2호
    • /
    • pp.145-156
    • /
    • 2019
  • As the industrial desire for a step change in productivity within the manufacture of composite structures increases, so does the interest in Through-Thickness Reinforcement technologies. As manufacturers look to increase the production rate, whilst reducing cost, Through-Thickness Reinforcement technologies represent valid methods to reinforce structural joints, as well as providing a potential alternative to mechanical fastening and bolting. The use of tufting promises to resolve the typically low delamination resistance, which is necessary when it comes to creating intersections within complex composite structures. Emerging methods include the use of 3D woven connectors, and orthogonally intersecting fibre packs, with the components secured by the selective insertion of microfasteners in the form of tufts. Intersections of this type are prevalent in aeronautical applications, as a typical connection to be found in aircraft wing structures, and their intersections with the composite skin and other structural elements. The common practice is to create back-to-back composite "L's", or to utilise a machined metallic connector, mechanically fastened to the remainder of the structure. 3D woven connectors and selective Through-Thickness Reinforcement promise to increase the ultimate load that the structure can bear, whilst reducing manufacturing complexity, increasing the load carrying capability and facilitating the automated production of parts of the composite structure. This paper provides an overview of the currently available methods for creating intersections within composite structures and compares them to alternatives involving the use of 3D woven connectors, and the application of selective Through-Thickness Reinforcement for enhanced damage tolerance. The use of tufts is investigated, and their effect on the load carrying ability of the structure is examined. The results of mechanical tests are presented for each of the methods described, and their failure characteristics examined.