Thermal and Mechanical Properties of Novolac-Silica Hybrid Aerogels Prepared by Sol-Gel Polymerization in Solvent-Saturated Vapor Atmosphere

Thermal and Mechanical Properties of Novolac-Silica Hybrid Aerogels Prepared by Sol-Gel Polymerization in Solvent-Saturated Vapor Atmosphere

Nowadays organic–inorganic hybrid aerogel materials have attracted increasing interests due to improved thermal and mechanical properties. In the present research, initially, novolac type phenolic resin-silica hybrid gels with different solid concentrations were synthesized using sol-gel polymerizat...

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Main Authors: Mohamad Mehdi Seraji1, Seraji, Azadeh Seifi, Ahmad Reza Bahramian
Format: Article
Language:fas
Published: Iran Polymer and Petrochemical Institute 2015-05-01
Series:علوم و تکنولوژی پلیمر
Subjects:
hybrid aerogels
sol-gel process
novolac
silica network
thermal stability
Online Access:http://jips.ippi.ac.ir/article_1248_3f3bfaafdd2873ea474f81a23a90a804.pdf
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spelling doaj-131e79ba98044b868085b0addfc62bcc2020-11-24T22:07:55ZfasIran Polymer and Petrochemical Instituteعلوم و تکنولوژی پلیمر1016-32552008-08832015-05-0128216816110.22063/jipst.2015.12481248Thermal and Mechanical Properties of Novolac-Silica Hybrid Aerogels Prepared by Sol-Gel Polymerization in Solvent-Saturated Vapor AtmosphereMohamad Mehdi Seraji1, Seraji0Azadeh Seifi1Ahmad Reza Bahramian2ACECR, Production Research Institute, P.O. Box:???, Ahwaz, IranDepartment of Polymer Engineering, Faculty of Chemical Engineering, Tarbiat Modares University, P.O. Box: 14115-114, Tehran, IranDepartment of Polymer Engineering, Faculty of Chemical Engineering, Tarbiat Modares University, P.O. Box: 14115-114, Tehran, IranNowadays organic–inorganic hybrid aerogel materials have attracted increasing interests due to improved thermal and mechanical properties. In the present research, initially, novolac type phenolic resin-silica hybrid gels with different solid concentrations were synthesized using sol-gel polymerization in solvent-saturatedvapor atmosphere. The hybrid gels were dried at air atmosphere through ambient drying process. This method removed the need for costly and risky supercritical drying process. The yields of the obtained hybrid aerogels increased with less shrinkage in comparison with conventional sol-gel process. The precursor of silica phase in this study was tetraethoxysilane and inexpensive novolac resin was used as a reinforcing phase. The results of FTIR analysis confirmed the simultaneous formation of silica and novolac gels in the hybrid systems. The resultant hybrid aerogels showed a nanostructure hybrid network with high porosity (above 80%) and low density (below 0.25 g/cm3). Nonetheless, higher content of silica resulted in more shrinkage in the hybrid aerogel structure due to the tendency of the silica network to shrink more during gelation and drying process. The SEM images of samples exhibited a continuous network of interconnected colloidal particles formed during sol-gel polymerization with mean particle size of less than 100 nanometers. Si mapping analysis showed good distribution of silica phase throughout the hybrid structure. The results demonstrated improvements in insulation properties and thermal stability of novolac-silica aerogel with increasing the silica content. The results of compressive strength showed that the mechanical properties of samples declined with increasing the silica content.http://jips.ippi.ac.ir/article_1248_3f3bfaafdd2873ea474f81a23a90a804.pdfhybrid aerogelssol-gel processnovolacsilica networkthermal stability
collection DOAJ
language fas
format Article
sources DOAJ
author Mohamad Mehdi Seraji1, Seraji
Azadeh Seifi
Ahmad Reza Bahramian
spellingShingle Mohamad Mehdi Seraji1, Seraji
Azadeh Seifi
Ahmad Reza Bahramian
Thermal and Mechanical Properties of Novolac-Silica Hybrid Aerogels Prepared by Sol-Gel Polymerization in Solvent-Saturated Vapor Atmosphere
علوم و تکنولوژی پلیمر
hybrid aerogels
sol-gel process
novolac
silica network
thermal stability
author_facet Mohamad Mehdi Seraji1, Seraji
Azadeh Seifi
Ahmad Reza Bahramian
author_sort Mohamad Mehdi Seraji1, Seraji
title Thermal and Mechanical Properties of Novolac-Silica Hybrid Aerogels Prepared by Sol-Gel Polymerization in Solvent-Saturated Vapor Atmosphere
title_short Thermal and Mechanical Properties of Novolac-Silica Hybrid Aerogels Prepared by Sol-Gel Polymerization in Solvent-Saturated Vapor Atmosphere
title_full Thermal and Mechanical Properties of Novolac-Silica Hybrid Aerogels Prepared by Sol-Gel Polymerization in Solvent-Saturated Vapor Atmosphere
title_fullStr Thermal and Mechanical Properties of Novolac-Silica Hybrid Aerogels Prepared by Sol-Gel Polymerization in Solvent-Saturated Vapor Atmosphere
title_full_unstemmed Thermal and Mechanical Properties of Novolac-Silica Hybrid Aerogels Prepared by Sol-Gel Polymerization in Solvent-Saturated Vapor Atmosphere
title_sort thermal and mechanical properties of novolac-silica hybrid aerogels prepared by sol-gel polymerization in solvent-saturated vapor atmosphere
publisher Iran Polymer and Petrochemical Institute
series علوم و تکنولوژی پلیمر
issn 1016-3255
2008-0883
publishDate 2015-05-01
description Nowadays organic–inorganic hybrid aerogel materials have attracted increasing interests due to improved thermal and mechanical properties. In the present research, initially, novolac type phenolic resin-silica hybrid gels with different solid concentrations were synthesized using sol-gel polymerization in solvent-saturatedvapor atmosphere. The hybrid gels were dried at air atmosphere through ambient drying process. This method removed the need for costly and risky supercritical drying process. The yields of the obtained hybrid aerogels increased with less shrinkage in comparison with conventional sol-gel process. The precursor of silica phase in this study was tetraethoxysilane and inexpensive novolac resin was used as a reinforcing phase. The results of FTIR analysis confirmed the simultaneous formation of silica and novolac gels in the hybrid systems. The resultant hybrid aerogels showed a nanostructure hybrid network with high porosity (above 80%) and low density (below 0.25 g/cm3). Nonetheless, higher content of silica resulted in more shrinkage in the hybrid aerogel structure due to the tendency of the silica network to shrink more during gelation and drying process. The SEM images of samples exhibited a continuous network of interconnected colloidal particles formed during sol-gel polymerization with mean particle size of less than 100 nanometers. Si mapping analysis showed good distribution of silica phase throughout the hybrid structure. The results demonstrated improvements in insulation properties and thermal stability of novolac-silica aerogel with increasing the silica content. The results of compressive strength showed that the mechanical properties of samples declined with increasing the silica content.
topic hybrid aerogels
sol-gel process
novolac
silica network
thermal stability
url http://jips.ippi.ac.ir/article_1248_3f3bfaafdd2873ea474f81a23a90a804.pdf
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AT azadehseifi thermalandmechanicalpropertiesofnovolacsilicahybridaerogelspreparedbysolgelpolymerizationinsolventsaturatedvaporatmosphere
AT ahmadrezabahramian thermalandmechanicalpropertiesofnovolacsilicahybridaerogelspreparedbysolgelpolymerizationinsolventsaturatedvaporatmosphere
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