A study on the thermal and mechanical properties of composites made of nanolignocellulose and Pebax<sup>®</sup>polymer

Farsi, Mohammad; Tavasoli, Afshin; Yousefi, Hossein; Tabari, Hassan Ziaei

doi:10.1177/0892705718799817

Cited by 8 publications

(10 citation statements)

References 47 publications

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“…The demand for a super performing natural material has prompted researchers worldwide for the enhancement of mechanical and thermal properties of cashew gum. 13–15…”

Section: Introductionmentioning

confidence: 99%

“…The demand for a super performing natural material has prompted researchers worldwide for the enhancement of mechanical and thermal properties of cashew gum. [13][14][15] The usual strategy for this is through the blending of different polymers and the inclusion of high performing synthetic nanoparticles. Such a blending of two or more natural polymers can result in a novel blend with structurally and functionally similar or dissimilar components.…”

Section: Introductionmentioning

confidence: 99%

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Utilization of copper sulphide nanoparticles for the development of cashew tree gum/ chitin biopolymer blend nanocomposites

Ramesan

Subburaj

Mathew³

et al. 2021

Journal of Thermoplastic Composite Materials

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This work focused on the preparation of biopolymer blend nanocomposites from chitin (CT) and cashew tree gum (CTG) with different contents of copper sulphide nanoparticles (CuS) by solution casting method. The formation of nanocomposites have been characterized by FT infrared (FTIR), UV spectroscopy, X-ray diffraction (XRD), scanning electron microscope (SEM), high-resolution transmission electron microscope (HRTEM), thermogravimetry (TGA), differential scanning calorimetry (DSC) and impedance analysis. The characteristic absorption of nanoparticles in the FTIR spectra and shift in UV spectra of blend composites revealed the strong interaction between CuS nanoparticles and the polar segments of CT/CTG blend. With the increase in dosage of nanoparticles, a decrease in amorphous domains has been noted in the XRD scans. The uniform distribution of nanoparticles in CT/CTG network has been confirmed by the SEM analysis. HRTEM of the blend composites reveals the formation of hemispherical nanoparticles with a diameter of 15–30 nm. The glass transition temperature of blend composites increased with the addition of nano-CuS in the polymer matrix. Compared to the pure CT/CTG blend, the prepared nanocomposite showed higher thermal stability. Mechanical properties such as tensile strength and hardness of the blend nanocomposites were greatly enhanced by the reinforcement of CuS into the CT/CTG matrix. The AC conductivity and dielectric properties of the nanocomposites increased with the concentration of fillers and the magnitude of these properties was higher than the pure polymer blend.

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“…The demand for a super performing natural material has prompted researchers worldwide for the enhancement of mechanical and thermal properties of cashew gum. 13–15…”

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Utilization of copper sulphide nanoparticles for the development of cashew tree gum/ chitin biopolymer blend nanocomposites

Ramesan

Subburaj

Mathew³

et al. 2021

Journal of Thermoplastic Composite Materials

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“…Therefore, the loading of wood fibres in Pebax ® delays the thermo-oxidation in air due to the formation of char residue in the earlier stages of degradation. Tensile strength, modulus and impact strength were significantly increased upon the addition of nanolignocellulose (LCNFs, up to 5 wt%) to Pebax by compression moulding using a hot press [119]. These nanocomposites combine biodegradability with improved water absorption and thickness swelling.…”

Section: Further Uses Of Pebaxmentioning

confidence: 99%

Polyether Block Amide as Host Matrix for Nanocomposite Membranes Applied to Different Sensitive Fields

Clarizia

Bernardo

2022

Membranes

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The cornerstones of sustainable development require the treatment of wastes or contaminated streams allowing the separation and recycling of useful substances by a more rational use of energy sources. Separation technologies play a prominent role, especially when conducted by inherently environmentally friendly systems such as membrane operations. However, high-performance materials are more and more needed to improve the separative performance of polymeric materials nanocomposites are ideally suited to develop advanced membranes by combining organic polymers with suitable fillers having superior properties. In this area, polyether block amide copolymers (Pebax) are increasingly adopted as host matrices due to their distinctive properties in terms of being lightweight and easy to process, having good resistance to most chemicals, flexibility and high strength. In this light, the present review seeks to provide a comprehensive examination of the progress in the development of Pebax-based nanocomposite films for their application in several sensitive fields, that are challenging and at the same time attractive, including olefin/paraffin separation, pervaporation, water treatment, flexible films for electronics, electromagnetic shielding, antimicrobial surfaces, wound dressing and self-venting packaging. It covers a wide range of materials used as fillers and analyzes the properties of the derived nanocomposites and their performance. The general principles from the choice of the material to the approaches for the heterogeneous phase compatibilization as well as for the performance improvement were also surveyed. From a detailed analysis of the current studies, the most effective strategies to overcome some intrinsic limitations of these nanocomposites are highlighted, providing guidelines for the correlated research.

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“…Shortly afterward, more types of TPAEs were synthesized on the laboratory scale; some were patented and commercialized with crucial industrial applications. [ 17 ] Whereafter, the structures and properties of these commercial TPAE products have been extensively investigated by many research groups, [ 18–20 ] further profoundly enhancing their comprehensive properties. Now TPAEs have become highly significant elastomer materials due to their excellent low‐temperature impact resistance, good flexibility, high elastic recovery, and good processability.…”

Section: Introductionmentioning

confidence: 99%

Thermoplastic Polyamide Elastomers: Synthesis, Structures/Properties, and Applications

Gong

Zhao

Chen

et al. 2021

Macro Materials & Eng

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Thermoplastic polyamide elastomers (TPAEs) have emerged as important thermoplastic elastomer materials with significant potentials owing to their excellent low‐temperature flexibility, easy processability, lightweight, good thermal stability and mechanical properties, etc. Over the last few decades, TPAEs have rapidly developed into a large variety of kinds of TPAEs. Striking advancements have been achieved in this research field. Unfortunately, there is not yet a review to summarize the progress. The present paper summarizes the major advancements dealing with TPAEs, in which synthesis, structures/properties as well as applications are introduced in detail. Moreover, current challenges and main developmental directions dealing with TPAEs are also presented. This review may motivate more interest in TPAEs, further facilitating their all‐side research and more large‐scale applications.

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A study on the thermal and mechanical properties of composites made of nanolignocellulose and Pebax^®polymer

Cited by 8 publications

References 47 publications

Utilization of copper sulphide nanoparticles for the development of cashew tree gum/ chitin biopolymer blend nanocomposites

Utilization of copper sulphide nanoparticles for the development of cashew tree gum/ chitin biopolymer blend nanocomposites

Polyether Block Amide as Host Matrix for Nanocomposite Membranes Applied to Different Sensitive Fields

Thermoplastic Polyamide Elastomers: Synthesis, Structures/Properties, and Applications

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A study on the thermal and mechanical properties of composites made of nanolignocellulose and Pebax®polymer

Cited by 8 publications

References 47 publications

Utilization of copper sulphide nanoparticles for the development of cashew tree gum/ chitin biopolymer blend nanocomposites

Utilization of copper sulphide nanoparticles for the development of cashew tree gum/ chitin biopolymer blend nanocomposites

Polyether Block Amide as Host Matrix for Nanocomposite Membranes Applied to Different Sensitive Fields

Thermoplastic Polyamide Elastomers: Synthesis, Structures/Properties, and Applications

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A study on the thermal and mechanical properties of composites made of nanolignocellulose and Pebax^®polymer