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Advanced Design of Block Shear Failure
Advanced Design of Block Shear Failure
by Maier, Nadine , Kuříková, Marta , Wald, František , Sekal, David
in Anchor bolts / block shear failure / bolted connections / Bolted joints / component-based FEM / Connectors / Exact solutions / Experiments / Failure / Finite element analysis / Finite element method / Gusset plates / Internal forces / Parameter sensitivity / Plastic deformation / Shear / Shear stress / Steel plates / Stiffness / Stress concentration / structural steel connections / Yield stress
2021
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Advanced Design of Block Shear Failure
by Maier, Nadine , Kuříková, Marta , Wald, František , Sekal, David
in Anchor bolts / block shear failure / bolted connections / Bolted joints / component-based FEM / Connectors / Exact solutions / Experiments / Failure / Finite element analysis / Finite element method / Gusset plates / Internal forces / Parameter sensitivity / Plastic deformation / Shear / Shear stress / Steel plates / Stiffness / Stress concentration / structural steel connections / Yield stress
2021
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Advanced Design of Block Shear Failure
Advanced Design of Block Shear Failure
by Maier, Nadine , Kuříková, Marta , Wald, František , Sekal, David
in Anchor bolts / block shear failure / bolted connections / Bolted joints / component-based FEM / Connectors / Exact solutions / Experiments / Failure / Finite element analysis / Finite element method / Gusset plates / Internal forces / Parameter sensitivity / Plastic deformation / Shear / Shear stress / Steel plates / Stiffness / Stress concentration / structural steel connections / Yield stress
2021

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Mohammed Bin Rashid Library /
Catalogue /
Advanced Design of Block Shear Failure
Advanced Design of Block Shear Failure
Journal Article

Advanced Design of Block Shear Failure

Maier, Nadine,
Kuříková, Marta,
Wald, František,
Sekal, David
2021
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Overview
This paper presents the behaviour and design procedure of bolted connections which tend to be sensitive to block shear failure. The finite element method is employed to examine the block shear failure. The research-oriented finite element method (RFEM) model is validated with the results of experimental tests. The validated model is used to verify the component-based FEM (CBFEM) model, which combines the analysis of internal forces by the finite element method and design of plates, bolts and welds by the component method (CM). The CBFEM model is verified by an analytical solution based on existing formulas. The method is developed for the design of generally loaded complicated joints, where the distribution of internal forces is complex. The resistance of the steel plates is controlled by limiting the plastic strain of plates and the strength of connectors, e.g., welds, bolts and anchor bolts. The design of plates at a post-critical stage is available to allow local buckling of slender plates. The prediction of the initial stiffness and the deformation capacity is included natively. Finally, a sensitivity study is prepared. The studied parameters include gusset plate thickness and pitch distance.
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Publisher
MDPI AG
Subject

Anchor bolts

/ block shear failure

/ bolted connections

/ Bolted joints

/ component-based FEM

/ Connectors

/ Exact solutions

/ Experiments

/ Failure

/ Finite element analysis

/ Finite element method

/ Gusset plates

/ Internal forces

/ Parameter sensitivity

/ Plastic deformation

/ Shear

/ Shear stress

/ Steel plates

/ Stiffness

/ Stress concentration

/ structural steel connections

/ Yield stress

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