Synthesis, characterization, biocompatibility, thermal and mechanical performances of sawdust reinforced composite

The work outlines the synthesis of a new and easy technique to develop sustainable composites of sawdusts reinforced polyester resin composites. For shaping a new approach we have found very rare approach for developing composites with sawdusts of Mahagoni wood (Swietenia mahagoni) reinforced polyes...

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Bibliographic Details
Published in:Polymer testing 2020-11, Vol.91, p.106764, Article 106764
Main Authors: Haque, Md Eyazul, Khan, Md Wahab, Kabir Chowdhury, Md Najmul
Format: Article
Language:English
Subjects:
Biocomposite
Biodegradability
Fickian diffusion
Sawdust
Unsaturated polyester resin
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Summary:The work outlines the synthesis of a new and easy technique to develop sustainable composites of sawdusts reinforced polyester resin composites. For shaping a new approach we have found very rare approach for developing composites with sawdusts of Mahagoni wood (Swietenia mahagoni) reinforced polyester resin composites in open literatures. Due to this gap, a plan made to develop untreated and treated sawdusts (very common in Bangladesh and many other countries of the world) reinforced strong and durable composites with unsaturated polyester resins along with their biodegradability, thermal and mechnical properties where the material properties were revealed and corelations were elaborated in the subsequent sections. Specifically, the tensile strengths of virgin resin (VR), untreated sawdust reinforced composite (UTSDC) and 4% caustic soda treated sawdust reinforced composite (4TSDC) are 10.77, 15.83 and 21.64 N/mm2, respectively. That means the observed reinforcement property for UTSDC and 4TSDC increased ~47% and 101%, respectively. Moreover, the binding phenomena were explained with the own schamatic presentation. The composite phenomena was explained sequentially by using Fourier transform infrared spectroscopy, scanning electron microscopy, thermogravimetric analysis, differential scanning calorimetry, X-ray diffraction, etc. Between the developed composites 4TSDC was strong (25% as compared from tensile strength) and durable (8% as observed in biodegradability results) than the UTSDC of unsaturated polyester resin. The pattern of water uptake follows usual Fickian diffusion behavior. The observed properties of the developed convincible composites indicate that they can be considered for indoor to outdoor applications especially for using the fence, roof, furniture items like chair, table, park benches, etc. •Sustainable composites of Swietenia mahagoni reinforced polyester resin composites have been developed.•Strong and durable composites along with their biodegradability are reported.•Thermomechanical properties and correlations with material properties were elaborated.•The pattern of water uptake follows usual Fickian diffusion behavior.•Developed convincible composites indicate suitable for indoor to outdoor applications.
ISSN:0142-9418
1873-2348
DOI:10.1016/j.polymertesting.2020.106764