Ultra-Low Density Fibreboard with Improved Fire Retardance and Thermal Stability using a Novel Fire-Resistant Adhesive
A novel fire-resistant adhesive made from polyvinyl alcohol, urea, phosphoric acid, and starch was demonstrated for use as a binder and fire retardant to produce ultra-low density fibreboard (ULDF) with clear environmental benefits. The results from Fourier transform infrared spectroscopy showed the...
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North Carolina State University
2016-04-01
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| Online Access: | http://ojs.cnr.ncsu.edu/index.php/BioRes/article/view/BioRes_11_2_5215_Cai_Ultra_Density_Fibreboard_Improved_Fire_Retardance |
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doaj-d3871a6aaee14660ad96be44c9e27d702020-11-24T23:37:10ZengNorth Carolina State UniversityBioResources1930-21261930-21262016-04-011125215522910.15376/biores.11.2.5215-5229Ultra-Low Density Fibreboard with Improved Fire Retardance and Thermal Stability using a Novel Fire-Resistant AdhesiveLili Cai0Biaorong Zhuang1Daobang Huang2Wei Wang3Min Niu4Yongqun Xie5Tingjie Chen6Xiaodong (Alice) Wang7Department of Material Science and Engineering, Fujian Agriculture and Forestry University, 350002, Fuzhou, Fujian, China; ChinaDepartment of Material Science and Engineering, Fujian Agriculture and Forestry University, 350002, Fuzhou, Fujian, China; ChinaDepartment of Material Science and Engineering, Fujian Agriculture and Forestry University, 350002, Fuzhou, Fujian, China; ChinaDepartment of Material Science and Engineering, Fujian Agriculture and Forestry University, 350002, Fuzhou, Fujian, China; ChinaDepartment of Material Science and Engineering, Fujian Agriculture and Forestry University, 350002, Fuzhou, Fujian, China; ChinaDepartment of Material Science and Engineering, Fujian Agriculture and Forestry University, 350002, Fuzhou, Fujian, China; ChinaDepartment of Material Science and Engineering, Fujian Agriculture and Forestry University, 350002, Fuzhou, Fujian, China; Division of Wood Technology and Engineering, Luleå University of Technology, SE-93187, Forskargatan 1, Skellefteå, Sweden; ChinaDivision of Wood Technology and Engineering, Luleå University of Technology, SE-93187, Forskargatan 1, Skellefteå, Sweden; Sweden A novel fire-resistant adhesive made from polyvinyl alcohol, urea, phosphoric acid, and starch was demonstrated for use as a binder and fire retardant to produce ultra-low density fibreboard (ULDF) with clear environmental benefits. The results from Fourier transform infrared spectroscopy showed the presence of chemical bonding between fire-resistant adhesives and ULDFs. The limiting oxygen index (LOI), combustion behaviour, and thermal stability were characterized using a LOI text, cone calorimeter, and thermal analyzer, respectively. The results demonstrated that the LOI value of the fire-retardant ULDF can reach up to 34.2 with 300 mL of fire-resistant adhesive. It was established that the additive noticeably reduced the peak of heat release rate, total heat release, and total smoke release of ULDF. Their morphologies after combustion were elucidated using a scanning electron microscope, and a char layer in the condensed phase was observed. Thermal analysis showed that the thermal stability of ULDF improved dramatically and the residual weight increased 4-fold, to 48.32%. Therefore, such ULDFs will be tremendously attractive as renewable, sustainable, and bio-based insulating materials. http://ojs.cnr.ncsu.edu/index.php/BioRes/article/view/BioRes_11_2_5215_Cai_Ultra_Density_Fibreboard_Improved_Fire_RetardanceUltra-low density fibreboardThermostabilityFire behaviourIntumescent flame retardants |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Lili Cai Biaorong Zhuang Daobang Huang Wei Wang Min Niu Yongqun Xie Tingjie Chen Xiaodong (Alice) Wang |
| spellingShingle |
Lili Cai Biaorong Zhuang Daobang Huang Wei Wang Min Niu Yongqun Xie Tingjie Chen Xiaodong (Alice) Wang Ultra-Low Density Fibreboard with Improved Fire Retardance and Thermal Stability using a Novel Fire-Resistant Adhesive BioResources Ultra-low density fibreboard Thermostability Fire behaviour Intumescent flame retardants |
| author_facet |
Lili Cai Biaorong Zhuang Daobang Huang Wei Wang Min Niu Yongqun Xie Tingjie Chen Xiaodong (Alice) Wang |
| author_sort |
Lili Cai |
| title |
Ultra-Low Density Fibreboard with Improved Fire Retardance and Thermal Stability using a Novel Fire-Resistant Adhesive |
| title_short |
Ultra-Low Density Fibreboard with Improved Fire Retardance and Thermal Stability using a Novel Fire-Resistant Adhesive |
| title_full |
Ultra-Low Density Fibreboard with Improved Fire Retardance and Thermal Stability using a Novel Fire-Resistant Adhesive |
| title_fullStr |
Ultra-Low Density Fibreboard with Improved Fire Retardance and Thermal Stability using a Novel Fire-Resistant Adhesive |
| title_full_unstemmed |
Ultra-Low Density Fibreboard with Improved Fire Retardance and Thermal Stability using a Novel Fire-Resistant Adhesive |
| title_sort |
ultra-low density fibreboard with improved fire retardance and thermal stability using a novel fire-resistant adhesive |
| publisher |
North Carolina State University |
| series |
BioResources |
| issn |
1930-2126 1930-2126 |
| publishDate |
2016-04-01 |
| description |
A novel fire-resistant adhesive made from polyvinyl alcohol, urea, phosphoric acid, and starch was demonstrated for use as a binder and fire retardant to produce ultra-low density fibreboard (ULDF) with clear environmental benefits. The results from Fourier transform infrared spectroscopy showed the presence of chemical bonding between fire-resistant adhesives and ULDFs. The limiting oxygen index (LOI), combustion behaviour, and thermal stability were characterized using a LOI text, cone calorimeter, and thermal analyzer, respectively. The results demonstrated that the LOI value of the fire-retardant ULDF can reach up to 34.2 with 300 mL of fire-resistant adhesive. It was established that the additive noticeably reduced the peak of heat release rate, total heat release, and total smoke release of ULDF. Their morphologies after combustion were elucidated using a scanning electron microscope, and a char layer in the condensed phase was observed. Thermal analysis showed that the thermal stability of ULDF improved dramatically and the residual weight increased 4-fold, to 48.32%. Therefore, such ULDFs will be tremendously attractive as renewable, sustainable, and bio-based insulating materials.
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| topic |
Ultra-low density fibreboard Thermostability Fire behaviour Intumescent flame retardants |
| url |
http://ojs.cnr.ncsu.edu/index.php/BioRes/article/view/BioRes_11_2_5215_Cai_Ultra_Density_Fibreboard_Improved_Fire_Retardance |
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