Improved thermal and mechanical properties of water-blown rigid polyurethane foams synthesized with renewable castor oil and toluene diisocyanate-based trifunctional polyols

In this work, glycerol was chemically modified into novel toluene diisocyanate (TDI) based trifunctional polyol (NTP) by a two step process, involving the reaction of TDI with glycerol to form an isocyanate-terminated pre-polymer, followed by the reaction with glycol. A thermal and mechanical proper...

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Published in:Cellular polymers 2023-09, Vol.42 (5-6), p.226-237
Main Authors: Srinivasan, Vennila, Vasam, Sumalatha, Govindarajan, Sankar
Format: Article
Language:English
Subjects:
Castor oil
Compressive strength
Fourier transforms
Glycerol
Hardness tests
Isocyanates
Mechanical properties
Nitrogen
Plastic foam
Polymers
Polyols
Polyurethane foam
Spectrum analysis
Substitution reactions
Synthesis
Thermodynamic properties
Tissue engineering
Toluene
Toluene diisocyanates
Vibration
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container_title Cellular polymers
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creator Srinivasan, Vennila
Vasam, Sumalatha
Govindarajan, Sankar
description In this work, glycerol was chemically modified into novel toluene diisocyanate (TDI) based trifunctional polyol (NTP) by a two step process, involving the reaction of TDI with glycerol to form an isocyanate-terminated pre-polymer, followed by the reaction with glycol. A thermal and mechanical property of water-blown rigid polyurethane foam (WB-PUF) was enhanced by the partial substitution (30 & 50 wt%) of castor oil with glycerol or synthesized NTP. The effects of glycerol content and NTP on the WB-PUF properties were investigated using various characterization techniques including ATR-FTIR, TGA, SEM, compression test, and Shore-A hardness test. Notably, the introduction of NTP substitution into the formulation of WB-PUF foams had beneficial impact on the structure of materials enhancing foam density from 77 kg/m3 to 117 kg/m3 and also exhibited superior thermal and mechanical properties compared to those with glycerol and unmodified foams. Shore A hardness and compression strength of those foams ranged from 50 to 69.5 °Sh A and 1.88-3.28 MPa, respectively. These findings suggest potential applications of the modified WB-PUF in areas such as rigid tissue engineering. Graphical Abstract
doi_str_mv 10.1177/02624893231204620
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source Sage Journals Online
subjects Castor oil
Compressive strength
Fourier transforms
Glycerol
Hardness tests
Isocyanates
Mechanical properties
Nitrogen
Plastic foam
Polymers
Polyols
Polyurethane foam
Spectrum analysis
Substitution reactions
Synthesis
Thermodynamic properties
Tissue engineering
Toluene
Toluene diisocyanates
Vibration
title Improved thermal and mechanical properties of water-blown rigid polyurethane foams synthesized with renewable castor oil and toluene diisocyanate-based trifunctional polyols
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