Mechanical and thermal properties of epoxy composites reinforced with waste peanut shell powder as a bio-filler

Prabhakar, M. N.; Shah, Atta ur Rehman; Rao, K. Chowdoji; Song, Jung‐Il

doi:10.1007/s12221-015-1119-1

Cited by 100 publications

(46 citation statements)

References 23 publications

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“…Zaaba et al 25 showed the positive effect of previous chemical modification of peanut shell with poly(vinyl alcohol)-PVA to improve overall properties of recycled polypropylene (PP). Prabhakar et al 26 analyzed the effect of peanut shell fillers (without and with a previous alkaline treatment) in epoxy thermosetting resins. In addition, the potential of peanut shell as base material for particle board manufacturing was studied, 27,28 but its use is not generalized.…”

Section: Introductionmentioning

confidence: 99%

Development and characterization of green composites from bio‐based polyethylene and peanut shell

Garcia‐Garcia

Carbonell‐Verdu

Jordá‐Vilaplana

et al. 2016

J of Applied Polymer Sci

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In the present work, different compatibilizers, namely polyethylene-graft-maleic anhydride (PE-g-MA), polypropylene-graft-maleic anhydride (PP-g-MA) and polystyrene-block-poly(ethylene-ran-butylene)-block-polystyrene-graft-maleic anhydride (SEBS-g-MA) were used on green composites derived from biobased polyethylene and peanut shell flour to improve particle-polymer interaction. Composites of high-density polyethylene/peanut shell powder (HDPE/PNS) with 10 wt% peanut shell flour were compatibilized with 3 wt% of the abovementioned compatibilizers. As per the results, PP-g-MA copolymer lead to best optimized properties as evidenced by mechanical characterization. In addition, best particle-matrix interface interactions with PP-g-MA were observed by scanning electron microscopy (SEM). Subsequently HDPE/PNS composites with varying peanut shell flour content in the 5 -30 wt% range with PP-g-MA compatibilizer were obtained by melt extrusion and compounding followed by injection molding and were characterized by mechanical, thermal and morphological techniques. The results showed that peanut shell powder, leads to an increase in mechanical resistant properties (mainly, flexural modulus and strength) while a decrease in mechanical ductile properties i.e. elongation at break and impact absorbed energy is observed with increasing peanut shell flour content. Furthermore, peanut shell flour provides an increase in thermal stability due to the natural antioxidant properties of peanut shell. In particular, composites containing 30 wt% peanut shell powder present a flexural strength 24% and a flexural modulus 72% higher than the unfilled polyethylene and the thermo-oxidative onset degradation temperature is increased from 232 ºC up to 254 ºC thus indicating a marked thermal stabilization effect. Resultant composites can show a great deal of potential as base materials for wood plastic composites.3

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Section: Introductionmentioning

confidence: 99%

Development and characterization of green composites from bio‐based polyethylene and peanut shell

Garcia‐Garcia

Carbonell‐Verdu

Jordá‐Vilaplana

et al. 2016

J of Applied Polymer Sci

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“…So, PS/ ZnO was selected as the best catalyst for the model reaction. The catalyst loading and heating conditions were also optimized (entry 13,17,18). As a result, the optimum conditions obtained were the use of 20 mg of PS/ZnO under microwave irradiation and a reaction time of 2 min.…”

Section: Resultsmentioning

confidence: 99%

“…Every year around 13.7 million tons of PS are discarded in the environment or burned (2)(3)(4). In contrast limited value-added uses exist for their removal among which we can mention the preparation of solid acid catalyst for biodiesel production and etherification of glycerol (5)(6)(7), natural dye and metal absorbents (8)(9)(10)(11)(12)(13)(14), biofilter based on their mechanical and thermal properties (15)(16)(17), and they are also used in the production of cellulose (18). PS are mainly composed of three biopolymers: lignin, cellulose and hemicellulose.…”

Section: Introductionmentioning

confidence: 99%

Preparation, characterization and use of new lignocellulose-based bio nanocomposite as a heterogeneous catalyst for sustainable synthesis of pyrimido benzazoles

Molaei

Javanshir

2018

Green Chemistry Letters and Reviews

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A sustainable combinatorial synthesis of densely substituted pyrimido [1,2-b] benzazole derivatives in water under microwave irradiation was performed using a new lignocellulose-based bio nanocomposite (BNC) as heterogeneous catalyst. The lignocellulosic waste peanut shells (LCWPS) were turned into a value-added product, a new BNC PS/ZnO, which was prepared via in situ hydrothermal synthesis. The as-prepared BNC was characterized by Fourier transform infrared spectroscopy, scanning electron microscopy, transmission electron microscopy, energy-dispersive X-ray spectroscopy and X-ray diffraction spectrum. PS/ZnO has been successfully used in a sustainable catalytic method for the synthesis of pyrimido [1, 2-b] benzazole derivatives in water under microwave irradiation. The time of this reaction was significantly reduced. This catalytic system has a very high turnover number (TON ∼ 10 3) and turnover frequency (TOF ∼ 10 5 h −1). This paper presents the benefit of sustainable management of LCWPS, a bio-sourced polymeric carbohydrate for production of new nanocatalyst.

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“…End joint with bonded nature are better than the bolted end joints for stress concentration and delamination [15]. Groundnut shell powder is used for composite and tested for thermal and mechanical properties, which shows good result with 15 wt% composition [17]. Treatment performed on jute fiber has shown better creep behaviour than untreated fiber composite [19].…”

Section: Literature Reviewmentioning

confidence: 99%

Design and Analysis of Sisal Filled Glass Epoxy Composite Leaf Spring

More¹,

Chaudhari²

2016

IOSR

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Mechanical and thermal properties of epoxy composites reinforced with waste peanut shell powder as a bio-filler

Cited by 100 publications

References 23 publications

Development and characterization of green composites from bio‐based polyethylene and peanut shell

Development and characterization of green composites from bio‐based polyethylene and peanut shell

Preparation, characterization and use of new lignocellulose-based bio nanocomposite as a heterogeneous catalyst for sustainable synthesis of pyrimido benzazoles

Design and Analysis of Sisal Filled Glass Epoxy Composite Leaf Spring

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