Sage Journals: Discover world-class research

Abstract

To investigate the influence of environmental temperature on the strength and failure behavior of composite/metal multi-bolt connections, this study examined the tensile strength and failure behavior of CFRP/aluminum alloy multi-bolt connections at different temperature environments ranging from 198.15 K to 423.15 K through experimental and numerical methods. The results show that lowering the temperature increases the strength and initial stiffness of the connection structure, while raising the temperature has the opposite effect. When the environmental temperature exceeds the glass transition temperature of the composite, a noticeable reduction in load-bearing strength occurs. Changes in environmental temperature lead to variations in the load-bearing conditions around different holes in the connection structure, with the first hole on the left side in the tensile direction bearing the highest proportion of the load, resulting in the most severe damage near that hole. The experimental results align well with the finite element numerical simulation outcomes, with a maximum deviation of 5.8% in the tensile strength between experiments and simulations at different temperatures. The failure behavior and regions of the structure show good consistency with the experimental results, validating the effectiveness of the numerical simulation model.

Keywords

Composites damage failure multipinned joints temperature effects tensile strength

Get full access to this article

View all access options for this article.

References

Cheng

Wang

, et al. A coupled FEM-FFT concurrent multiscale method for the deformation simulation of CFRPs laminate. Compos Struct 2024; 342: 118246.

Chai

Eisenbart

Nikzad

, et al. A novel heuristic optimisation framework for radial injection configuration for the resin transfer moulding process. Compos Appl Sci Manuf 2023; 165: 107352.

Wang

Bwar

, et al. Application of machine learning for composite moulding process modelling. Compos Commun 2024; 48: 101960.

Chai

Wang

Dang

TKM

, et al. Comprehensive composite mould filling pattern dataset for process modelling and prediction. J Compos Sci 2024; 8: 153.

Shevtsov

Chang

Zhilyaev

, et al. Numerical study of thin-walled polymer composite part quality when manufactured using vacuum infusion with various external pressure controls. Polymers 2024; 16: 654.

Jedidi

Jacquemin

Vautrin

. Design of accelerated hygrothermal cycles on polymer matrix composites in the case of a supersonic aircraft. Compos Struct 2005; 68: 429–437.

Charles

Furness

JAG

. Preface to the third edition. In: Charles

Crane

FAA

Furness

JAG

(eds) Selection and use of engineering materials. 3rd ed. Oxford: Butterworth-Heinemann, 1997, p. vii.

Jiang

Dong

, et al. Influence of interference fit size on hole deformation and residual stress in hi-lock bolt insertion. Proc IME C J Mech Eng Sci 2014; 228: 3296–3305.

Chai

Eisenbart

Nikzad

, et al. Review of approaches to minimise the cost of simulation-based optimisation for liquid composite moulding processes. Materials 2023; 16: 7580.

10.

Chai

Gunaratne

Ravandi

, et al. Smart industrial internet of things framework for composites manufacturing. Sensors 2024; 24: 4852.

11.

Blythe

Fox

Nikzad

, et al. Stiffness retention in cyclic-loaded CFRP composites produced via novel automatic tape laying. J Compos Sci 2024; 8: 92.

12.

Russo

. First investigation on mixed cracks and failure modes in multi-bolted FRP plates. Compos Struct 2016; 154: 17–30.

13.

Karakuzu

Çalışkan

Aktaş

, et al. Failure behavior of laminated composite plates with two serial pin-loaded holes. Compos Struct 2008; 82: 225–234.

14.

Karakuzu

Demirgoren

Icten

, et al. Failure behavior of quasi-isotropic laminates with three-pin loaded holes. Mater Des 2010; 31: 3029–3032.

15.

Jiang

Xiao

Dong

, et al. Experimental study of bonded, bolted, and hybrid braided CFRP joints with different stacking sequences and lapping patterns. Thin-Walled Struct 2022; 177: 109408.

16.

Gamdani

Boukhili

Vadean

. Tensile behavior of hybrid multi-bolted/bonded joints in composite laminates. Int J Adhesion Adhes 2019; 95: 102426.

17.

Zheng

Zhang

Tie

, et al. Tensile properties analysis of CFRP-titanium plate multi-bolt hybrid joints. Chin J Aeronaut 2022; 35: 464–474.

18.

Fang

Zhao

Liu

, et al. Testing method of bolt load distribution in carbon fiber/resin composite multi-bolt joints. Fuhe Cailiao Xuebao/Acta Mater Compos Sin 2019; 36: 2795–2804.

19.

Song

, et al. Load distribution law in multi-bolts connected composite structure. Fuhe Cailiao Xuebao/Acta Mater Compos Sin 2024; 41: 2148–2156.

20.

Deng

Cheng

Tang

. Thermal stress distribution law of hybrid composite metal structures. Yingyong Lixue Xuebao/Chin J Appl Mech 2020; 37: 550–557.

21.

Luan

Tan

, et al. Effect of service low-temperature aging on mechanical properties of aluminum alloy-basalt fiber reinforced polymer composite bonding joints and failure prediction. Fuhe Cailiao Xuebao/Acta Mater Compos Sin 2020; 37: 1884–1893.

22.

Coman

C-D

Constantinescu

. Temperature effects on joint strength and failure modes of hybrid aluminum–composite countersunk bolted joints. Proc Inst Mech Eng Part L 2019; 233: 2204–2218.

23.

Gao

Guo

, et al. Mechanical properties and low-temperature impact toughness of high-strength bolts after elevated temperatures. J Build Eng 2022; 57: 104851.

24.

Zhang

, et al. Modeling on bearing behavior and damage evolution of single-lap bolted composite interference-fit joints. Compos Struct 2019; 212: 452–464.

25.

Zhang

Song

Zhang

, et al. Effect of hygrothermal environment on the fatigue fracture mechanism of single lap aluminum-CFRP hybrid (riveted/bonded) joints. Int J Fatig 2022; 165: 107177.

26.

Kradinov

Barut

Madenci

, et al. Bolted double-lap composite joints under mechanical and thermal loading. Int J Solid Struct 2001; 38: 7801–7837.

27.

Tserpes

Labeas

Papanikos

, et al. Strength prediction of bolted joints in graphite/epoxy composite laminates. Compos B Eng 2002; 33: 521–529.

28.

Lin

. Role of matrix resin in delamination onset and growth in composite laminates. Compos Sci Technol 1988; 33: 257–277.

Effects of temperature on strength and failure behavior of CFRP/aluminum alloy multipinned connections

Abstract

Keywords

Get full access to this article

References