Investigation of tensile behavior and influence factors of composite-to-metal 2D-scarf bonded joint

•FEM and experimental results agree well.•Damage mechanism of SBJs was investigated.•Effects of laminate stacking sequences, metal and adhesive properties were analyzed. Composite-to-metal 2D (two dimensional) scarf bonded joint (SBJ) specimens with 4scarf angles were tested to study their tensile b...

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Bibliographic Details
Published in:Engineering structures 2019-02, Vol.180, p.284-294
Main Authors: Zhang, Qian, Cheng, Xiaoquan, Cheng, Yujia, Li, Weidong, Hu, Renwei
Format: Article
Language:English
Subjects:
Adhesive joints
Adhesives
Aluminum
Bonded joints
Composite materials
Composite structures
Composite-to-metal joint
Computer simulation
Finite element method
Killed steels
Mathematical models
Metals
Plasticity
Residual stress
Scarf bonded joint
Stacking sequence (composite materials)
Steel
Steel plates
Tensile behavior
Tensile properties
Titanium
Two dimensional composites
Ultimate loads
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Summary:•FEM and experimental results agree well.•Damage mechanism of SBJs was investigated.•Effects of laminate stacking sequences, metal and adhesive properties were analyzed. Composite-to-metal 2D (two dimensional) scarf bonded joint (SBJ) specimens with 4scarf angles were tested to study their tensile behaviors. Based on the experimental results, progressive damage finite element models (FEM) were established in ABAQUS/Standard, and the effects of three variables: the metal material, composite stacking sequence and adhesive properties, with respect to the joint tensile properties were investigated. The results show that the metal plasticity and scarf angle can affect the tensile plastic behavior of the joint. Compared with Q235 (steel), 7075-T6 (aluminium) and 30CrMnSiNi2A (steel) plates, TC4 (titanium) plate makes the joint possess higher tensile strength. Changing the composite plate (laminate) stacking sequences can result in the variation of plastic behavior and failure location of the joints. The adhesive properties have significant effects on the joint plastic behavior and ultimate loads.
ISSN:0141-0296
1873-7323
DOI:10.1016/j.engstruct.2018.11.036