Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Effects of elevated temperatures on the mechanical properties of basalt fibers and BFRP plates
https://orcid.org/0000-0002-8540-2580
Graphical abstract Display Omitted
Highlights At elevated temperatures, more degradation occurred for glass fibers than basalt fibers. Basalt fibers show superior elevated temperature resistance to BFRP. Elevated temperature affects the mechanical properties of BFRPs negligibly.
Abstract In this article, the effects of elevated temperature on the mechanical properties of basalt fiber roving and pultruded basalt fiber-reinforced polymer (BFRP) plates were studied. For comparison, E-glass fiber roving and pultruded glass fiber-reinforced (GFRP) plates were also tested under the same conditions. It was observed that as the temperatures increasing from room temperature to 200°C, the tensile strength and elastic modulus were reduced by 37.5% and 31% for BFRPs, and reduced by 8.3% and 9.7% for basalt fiber roving, respectively. The deteriorated bonding strength between the basalt fiber and epoxy resin matrix at elevated temperatures is ascribed to the pronounced degradation of the BFRPs. After exposure to 120°C and 200°C for 4h, negligible degradation on mechanical properties occurred in BFRP plates, while a reduction in the Weibull shape parameter (m) is found for the basalt fiber roving. Compared to the glass fiber rovings and pultruded GFRP plates, the basalt fiber roving and BFRP plates showed much better mechanical tensile properties and temperature resistance.
Effects of elevated temperatures on the mechanical properties of basalt fibers and BFRP plates
https://orcid.org/0000-0002-8540-2580
Graphical abstract Display Omitted
Highlights At elevated temperatures, more degradation occurred for glass fibers than basalt fibers. Basalt fibers show superior elevated temperature resistance to BFRP. Elevated temperature affects the mechanical properties of BFRPs negligibly.
Abstract In this article, the effects of elevated temperature on the mechanical properties of basalt fiber roving and pultruded basalt fiber-reinforced polymer (BFRP) plates were studied. For comparison, E-glass fiber roving and pultruded glass fiber-reinforced (GFRP) plates were also tested under the same conditions. It was observed that as the temperatures increasing from room temperature to 200°C, the tensile strength and elastic modulus were reduced by 37.5% and 31% for BFRPs, and reduced by 8.3% and 9.7% for basalt fiber roving, respectively. The deteriorated bonding strength between the basalt fiber and epoxy resin matrix at elevated temperatures is ascribed to the pronounced degradation of the BFRPs. After exposure to 120°C and 200°C for 4h, negligible degradation on mechanical properties occurred in BFRP plates, while a reduction in the Weibull shape parameter (m) is found for the basalt fiber roving. Compared to the glass fiber rovings and pultruded GFRP plates, the basalt fiber roving and BFRP plates showed much better mechanical tensile properties and temperature resistance.
Effects of elevated temperatures on the mechanical properties of basalt fibers and BFRP plates
https://orcid.org/0000-0002-8540-2580
Graphical abstract Display Omitted
Highlights At elevated temperatures, more degradation occurred for glass fibers than basalt fibers. Basalt fibers show superior elevated temperature resistance to BFRP. Elevated temperature affects the mechanical properties of BFRPs negligibly.
Abstract In this article, the effects of elevated temperature on the mechanical properties of basalt fiber roving and pultruded basalt fiber-reinforced polymer (BFRP) plates were studied. For comparison, E-glass fiber roving and pultruded glass fiber-reinforced (GFRP) plates were also tested under the same conditions. It was observed that as the temperatures increasing from room temperature to 200°C, the tensile strength and elastic modulus were reduced by 37.5% and 31% for BFRPs, and reduced by 8.3% and 9.7% for basalt fiber roving, respectively. The deteriorated bonding strength between the basalt fiber and epoxy resin matrix at elevated temperatures is ascribed to the pronounced degradation of the BFRPs. After exposure to 120°C and 200°C for 4h, negligible degradation on mechanical properties occurred in BFRP plates, while a reduction in the Weibull shape parameter (m) is found for the basalt fiber roving. Compared to the glass fiber rovings and pultruded GFRP plates, the basalt fiber roving and BFRP plates showed much better mechanical tensile properties and temperature resistance.
Effects of elevated temperatures on the mechanical properties of basalt fibers and BFRP plates
Lu, Zhongyu (Autor:in) / Xian, Guijun (Autor:in) / Li, Hui (Autor:in)
Construction and Building Materials ; 127 ; 1029-1036
31.10.2015
8 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Effects of elevated temperatures on the mechanical properties of basalt fibers and BFRP plates
| British Library Online Contents | 2016
Effects of elevated temperatures on the mechanical properties of basalt fibers and BFRP plates
| Online Contents | 2016
Effects of elevated temperatures on the mechanical properties of basalt fibers and BFRP plates
| British Library Online Contents | 2016
Effects of elevated temperatures on the mechanical properties of basalt fibers and BFRP plates
| British Library Online Contents | 2016
Effects of elevated temperatures on the mechanical properties of basalt fibers and BFRP plates
| British Library Online Contents | 2016