Original scientific paper
Application of microscale combustion calorimeter to characterize protective properties of bovine leather
Franka Žuvela Bošnjak
; University of Zagreb Faculty of Textile Technology
Sandra Flinčec Grgac
; University of Zagreb Faculty of Textile Technology
Suzana Mihanović
orcid.org/0000-0001-7571-7565
; Psunj d.o.o., Rešetari, Croatia
Abstract
The quality and properties of fire resistance are crucial to the selection of leather for the production of protective fire fighting boots, which has a primarily protective role. During fire extinguishing it is exposed to extremely high and low temperatures, chemicals (acids and alkalis), mechanical loads, etc. The properties of fire resistance were tested on two samples of bovine leather (BL1, BL2). Burn resistance test has been carried out in accordance with the requirements of the technical standards for the burn resistance test: HRN EN ISO 15090: 2012 – Footwear and firefighters. The mentioned two samples were individually tested according to HRN EN ISO 15025: 20016 – Protective clothing – Flame protection – Method limited flame spread tests. The test procedure was carried out by the “Flame Expansion Testing Method”. Moreover, in this research used Microscale Combustion Calorimeter (MCC) Govmark, UK because that was designed for produce the maximum heating rate capability similarly the heating rates in fires and give as a lot of flammability parameters. The analysis of physicochemical properties of samples was performed using Fourier transform infrared (FTIR) spectroscopy. The surface morphology of the samples was studied using a Field Emission Scanning Electron Microscopy (FE-SEM). The measurement of the above samples on MCC was performed according to ASTM D7309. The natural characteristics of the grain side are not visible on the samples. Observed (shown) irregularities of the VK2 sample are attributed to an artificial face of the leather. From the obtained HRR results, it is evident that BL1 sample has a better thermal stability than the BL2 sample.
Keywords
bovine leather, fire resistance, MCC analysis, FTIR-ATR, FESEM
Hrčak ID:
247869
URI
Publication date:
1.12.2020.
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