Acrylic-based fire-retardant coatings for steel protection : employing the concept of in situ ceramization
Traditional intumescent coatings are widely used as passive fire-protective coatings for steel structures as they are capable of expanding in the range of 20–50 times the original thickness thereby providing excellent insulation. However, the fragile nature of such residue and susceptibility to ther...
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sg-ntu-dr.10356-1545382021-12-28T00:47:40Z Acrylic-based fire-retardant coatings for steel protection : employing the concept of in situ ceramization Anees, Sheik Mohamed Dasari, Aravind School of Materials Science and Engineering Engineering::Materials Ceramization Char Rigidity Traditional intumescent coatings are widely used as passive fire-protective coatings for steel structures as they are capable of expanding in the range of 20–50 times the original thickness thereby providing excellent insulation. However, the fragile nature of such residue and susceptibility to thermo-oxidation given their carbonaceous nature are key problematic issues. The concept of in situ ceramization is explored in this work as a means to form inorganic cohesive char with improved rigidity and thermo-oxidative stability. Coating samples were prepared by incorporating ammonium polyphosphate, talc, Mg(OH)2, and polydimethylsiloxane as additives into acrylic resin at different weight fractions. Thermal analysis and x-ray diffraction have confirmed the reactions between the additives to form various crystalline magnesium phosphate phases, and to a small extent, silicon phosphate, thereby ensuring the thermo-oxidative stability of the residue. This is reiterated by the fire performance tests (by exposing the coatings to a temperature profile in a furnace similar to ISO 834 fire curve). Despite the advantages of rigid char and its thermo-oxidative stability as a result of formation of inorganic phosphates, the lack of swelling has resulted in relatively poor insulation capabilities of the char, and subsequently, compromised the fire protection times (that are in the range of 45–55 min). However, pyrolysis flow combustion calorimeter results of the coatings are promising and have shown a significant drop of up to 70% in the peak of heat release rate values as compared to neat resin. This manuscript is based on research work supported by Jurong Town Corporation (JTC) through NTU-JTC I3C (RCAs 16/277 and 17/365). 2021-12-28T00:47:40Z 2021-12-28T00:47:40Z 2021 Journal Article Anees, S. M. & Dasari, A. (2021). Acrylic-based fire-retardant coatings for steel protection : employing the concept of in situ ceramization. Journal of Applied Polymer Science, 138(17), 50299-. https://dx.doi.org/10.1002/app.50299 0021-8995 https://hdl.handle.net/10356/154538 10.1002/app.50299 2-s2.0-85096751354 17 138 50299 en RCAs 16/277 RCAs 17/365 Journal of Applied Polymer Science © 2020 Wiley Periodicals LLC. All rights reserved |
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Engineering::Materials Ceramization Char Rigidity Anees, Sheik Mohamed Dasari, Aravind Acrylic-based fire-retardant coatings for steel protection : employing the concept of in situ ceramization |
| description |
Traditional intumescent coatings are widely used as passive fire-protective coatings for steel structures as they are capable of expanding in the range of 20–50 times the original thickness thereby providing excellent insulation. However, the fragile nature of such residue and susceptibility to thermo-oxidation given their carbonaceous nature are key problematic issues. The concept of in situ ceramization is explored in this work as a means to form inorganic cohesive char with improved rigidity and thermo-oxidative stability. Coating samples were prepared by incorporating ammonium polyphosphate, talc, Mg(OH)2, and polydimethylsiloxane as additives into acrylic resin at different weight fractions. Thermal analysis and x-ray diffraction have confirmed the reactions between the additives to form various crystalline magnesium phosphate phases, and to a small extent, silicon phosphate, thereby ensuring the thermo-oxidative stability of the residue. This is reiterated by the fire performance tests (by exposing the coatings to a temperature profile in a furnace similar to ISO 834 fire curve). Despite the advantages of rigid char and its thermo-oxidative stability as a result of formation of inorganic phosphates, the lack of swelling has resulted in relatively poor insulation capabilities of the char, and subsequently, compromised the fire protection times (that are in the range of 45–55 min). However, pyrolysis flow combustion calorimeter results of the coatings are promising and have shown a significant drop of up to 70% in the peak of heat release rate values as compared to neat resin. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Anees, Sheik Mohamed Dasari, Aravind |
| format |
Article |
| author |
Anees, Sheik Mohamed Dasari, Aravind |
| author_sort |
Anees, Sheik Mohamed |
| title |
Acrylic-based fire-retardant coatings for steel protection : employing the concept of in situ ceramization |
| title_short |
Acrylic-based fire-retardant coatings for steel protection : employing the concept of in situ ceramization |
| title_full |
Acrylic-based fire-retardant coatings for steel protection : employing the concept of in situ ceramization |
| title_fullStr |
Acrylic-based fire-retardant coatings for steel protection : employing the concept of in situ ceramization |
| title_full_unstemmed |
Acrylic-based fire-retardant coatings for steel protection : employing the concept of in situ ceramization |
| title_sort |
acrylic-based fire-retardant coatings for steel protection : employing the concept of in situ ceramization |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/154538 |
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1720447087241330688 |