Characterization and Research on Mechanical Properties of Bamboo Plastic Composites

Yu, Xingwen; Ma, Dongjuan; Wang, Cuicui; Wang, Ge; Smith, Lee M.; Cheng, Hui‐Ming

doi:10.3390/polym10080814

Cited by 16 publications

(12 citation statements)

References 30 publications

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“…Their conclusions are confirmed by recent research [23,24]. The EWF testing on natural fiber reinforced polymer composites showed that we increased significantly with the amount of bamboo pulp fiber used in bamboo plastic composites but decreased with the increase of white mud in the bamboo plastic composites [25][26][27].…”

Section: Quasi-static Loading Modesupporting

confidence: 84%

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Characterization of Specific Essential Work of Fracture for various Fracture Modes on Thermoplastic Materials

2020

IJETER

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This paper aims to provide an integrated overview of the current state for the characterization of fracture Mode I (opening), Mode II (in-plane shear), Mode III (out-of-plane shear), as well as Mixed-Mode based on the essential work of fracture (EWF) concept on neat thermoplastics as well as composite matrices. Methodology: This review paper synthesizes and expands a collection of literature using the same basic methods. Each document that has a same fracture mode is grouped, reviewed, and synthesized.The review generally covers important aspects of testing and related data reduction methods, and the results of EWF research in various different mode-type loading.Results: The character of fracture toughness in ductile material has been widely evaluated using the EWF approach. The use of this method has evolved not only for mode I fractures but also for mode II and mode III fractures. Applications: This can create an understanding of the topic of fracture characterization in various fracture modes based on the EWF concept for ductile material so that the readers can discuss the various findings presented in recent research papers.

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Section: Quasi-static Loading Modesupporting

confidence: 84%

“…The EWF testing on natural fiber reinforced polymer composites showed that the impact fracture toughness (w e ) was increased by increasing fiber content. Many researchers [18]- [25]- [32] concluded that the presence of fiber can increase the energy that is anticipated during the fracture process.…”

Section: Dynamic Loading Modementioning

confidence: 99%

Characterization of Specific Essential Work of Fracture for various Fracture Modes on Thermoplastic Materials

2020

IJETER

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“…The impact performance test specimens included notched and unnotched samples. The results of the tests performed on the two types of samples were not significantly better than each other, but for the impact performance analysis of GF/PPS composites, the a cU values measured in the unnotched sample were the most conservative, so the unnotched sample was used, and the data were calculated in this paper [ 32 , 33 ]. The general equation for the impact strength of the unnotched sample is as follows:

where

is the impact strength of the unnotched supported beam, KJ/m 2 ;

is the energy absorbed during the damage of the modified specimen, J;

is the thickness of the sample, mm; and

is the width of the model, mm.…”

Section: Methodsmentioning

confidence: 99%

Effect of Polyphenylene Sulphide Particles and Films on the Properties of Polyphenylene Sulphide Composites

Sun

Li²,

Zhu

et al. 2022

Materials

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Glass fibre-reinforced polyphenylene sulphide composites were prepared by hot-pressing glass fibre fabrics and polyphenylene sulphide resins. The effects of different polyphenylene sulphide resin forms on the properties of the composites were investigated using scanning electron microscopy, dynamic mechanical analyser, pendulum impact tester and universal testing machine. The results showed that different polyphenylene sulphide resin forms had nearly no effect on the glass transition temperature of the composites, which are all located at about 100 ℃. Compared with other polyphenylene sulphide composites, the bending strength of polyphenylene sulphide film composites was the highest, reaching 314.58 MPa, and the impact strength of polyphenylene sulphide particle composites was the highest, reaching 245.4 KJ/m2. The bending strength and impact strength were calculated using a standard fraction, and the highest standard fraction was obtained when the ratio of polyphenylene sulphide film to particle was 1:2. The impact strength and bending strength could be obtained. The impact strength reached 229.8 KJ/m2, and the bending strength reached 284.16 MPa.

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“…A high intrinsic modulus of kenaf resulted in a stiffening effect in the biocomposites. The chain mobility and deformation ability of PLA and rubber matrices were restricted by dispersed kenaf particles (Ahmad and Baharum 2018;Xian et al 2018). However, the Alias et al (2020).…”

Section: Tensile Propertiesmentioning

confidence: 99%

Tailoring properties of polylactic acid/rubber/kenaf biocomposites: Effects of type of rubber and kenaf loading

Alias

Ismail

Ishak

2020

BioRes

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Polylactic acid (PLA) biocomposites were prepared by melt blending in an internal mixer with various types of rubber. The rubber was 90/10 wt% and was mixed before the addition of kenaf fiber (0 to 20 phr). Natural rubber (NR), nitrile butadiene rubber (NBR), and styrene butadiene rubber (SBR) were used. The effects of different types of rubber and kenaf loading were investigated based on processing torque, water absorption, mechanical properties, and fractured surface morphology. A similar trend in processing torque was observed throughout the composition of biocomposites. The stabilization torque was highest for the biocomposite with NR, followed by SBR and NBR. Water absorption increased as the kenaf loading increased. The polarity of NBR and SBR contributed to higher water absorption in the biocomposites compared to the NR. The strain-induced crystallization phenomenon and higher green strength of NR contributed to the highest tensile strength, elongation at break, and impact strength of the biocomposite compared to the NBR and SBR toughened PLA/kenaf biocomposite. More plastic deformation and less fiber pullout were observed in the fractured surface morphology. However, by increasing the kenaf loading, the mechanical properties decreased for all biocomposites, which was due to poor interfacial adhesion and agglomeration.

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Characterization and Research on Mechanical Properties of Bamboo Plastic Composites

Cited by 16 publications

References 30 publications

Characterization of Specific Essential Work of Fracture for various Fracture Modes on Thermoplastic Materials

Characterization of Specific Essential Work of Fracture for various Fracture Modes on Thermoplastic Materials

Effect of Polyphenylene Sulphide Particles and Films on the Properties of Polyphenylene Sulphide Composites

Tailoring properties of polylactic acid/rubber/kenaf biocomposites: Effects of type of rubber and kenaf loading

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