The effect of boron nanoparticle reinforcement on the structural and mechanical performance of nanocomposites and bonded joints exposed to an acid environment

Gülteki̇n, Kürşat; Korkmaz, Yasemin

doi:10.1016/j.ijadhadh.2022.103244

Cited by 9 publications

(2 citation statements)

References 52 publications

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“…They showed that enhanced mechanical properties for the composites were obtained by 20 wt% of hBN content. The structural and mechanical performance of boron nanoparticle reinforced nanocomposites and bonded joints exposed to an acid environment were studied by Gültekin et al [5]. They found that boron nanoparticles reinforced composites showed higher mechanical properties.…”

Section: Introductionmentioning

confidence: 99%

Investigation of flexural properties of hexagonal boron nitride added thermoplastic composites

Demircan,

Kalaycı

2024

Journal of Boron

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In this study, weight percentages (wps) of 0%, 0.5%, 2% hexagonal boron nitrides (hBN) were added to 30 wt.% short glass fiber reinforced Polyamide (PA) 66 matrix (GF30) to fabricate the thermoplastic composite materials. The hBN additives were applied by coating of granules of 30 wt.% short glass fiber reinforced PA 66 (GF30) materials. The hBN coated thermoplastic materials were produced by plastic injection method. The effect of different wps of hBNs on the flexural properties of thermoplastic composites were examined in the produced samples. The produced samples were subjected to three-point bending tests. When looking at the results of the three-point bending tests, the highest increase of flexural properties was obtained in the sample of PA66/GF30/2% hBN added thermoplastic composite. The samples with 2 wt% hBN showed the best flexural properties with an improvement of 85 and 52% flexural modulus and strength, respectively, compared to the samples without hBN (PA66/GF30). According to the obtained results of this study, as the percentage of the hBN weight contents increased, the flexural strengths and flexural modulus increased significantly. It was concluded that hBN coated thermoplastic composite samples demonstrated high improvements of flexural properties at optimum rates of hBN.

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Section: Introductionmentioning

confidence: 99%

Investigation of flexural properties of hexagonal boron nitride added thermoplastic composites

Demircan,

Kalaycı

2024

Journal of Boron

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“…One of the most frequently utilized joining techniques in advanced structures (like aerospace and automotive) is structural adhesive bonding [1][2][3][4][5]. However, the strength of the adhesive joint can be affected by many parameters such as environmental conditions [6][7][8]. One of the best ways to overcome such problems is to combine adhesive bonding with other joining techniques, thus, another type of joining technique (e.g., riveted joints) can compensate for the disadvantage of adhesive joining such as lack of strength.…”

Section: Introductionmentioning

confidence: 99%

Tensile Strength of Adhesively Bonded and Hybrid (Bonded/Riveted) Dissimilar Single-Lap Joints

Cetin

2022

International Journal of Automotive Science and Technology

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Glass fiber-reinforced composites are commonly employed as structural materials in many fields. In addition, glass fiber-reinforced composites are frequently used with metals, particularly in the automotive and aerospace industry. In this context, the tensile strengths of simple and hybrid single-lap joints having similar (i.e., aluminum/aluminum and composite/composite) and dissimilar (i.e., aluminum/composite) plates were investigated experimentally in this study. At this point, 6061 aluminum alloy and E-glass/epoxy composite plates were used as the adherends and Araldite 2014-1 was used as the adhesive. The composite adherends produced using the vacuum infusion technique consist of E-glass/epoxy laminates with [0°/90°/+45°/−45°]6 stacking sequence. Two different types of joints (i.e., adhesively bonded and bonded/riveted) were employed for similar and dissimilar joints. In addition, both 3-rivet and 4-rivet joints were used in bonded/riveted joints. The results revealed that the strength of the joints could be considerably increased with the addition of rivets to the adhesively bonded joints. In particular, the results showed that the strength value of the bonded/4-riveted joint is 5.7 times higher than the adhesively bonded joints.

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Investigation of the Effect of Particle Size on Dispersion Stability and Viscosity in Kaolin Particles-Doped Bio-Based Palm Nanolubricants

Özakın,

Gültekin,

Uğuz

2024

Arab J Sci Eng

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The effect of boron nanoparticle reinforcement on the structural and mechanical performance of nanocomposites and bonded joints exposed to an acid environment

Cited by 9 publications

References 52 publications

Investigation of flexural properties of hexagonal boron nitride added thermoplastic composites

Investigation of flexural properties of hexagonal boron nitride added thermoplastic composites

Tensile Strength of Adhesively Bonded and Hybrid (Bonded/Riveted) Dissimilar Single-Lap Joints

Investigation of the Effect of Particle Size on Dispersion Stability and Viscosity in Kaolin Particles-Doped Bio-Based Palm Nanolubricants

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