Study on progressive damage performance of basalt‐fiber wound composite tube

Abstract: For filament wound composite tubes made of basalt fiber-reinforced polymer (BFRP), damage performances were simulated and load capacity was evaluated with a multi-scale homogenization method based on properties of component materials, fiber volume fraction and the winding process. Considering about both the intra-layer and inter-layer damage properties, a representative volume element (RVE) was defined in the structural layer of the pipe wall firstly. Equivalent mechanical properties of the structural layer we… Show more

“…Basalt fibers are gaining the interest of researchers as well as industry as an alternative to glass fiber reinforcements as they possess very similar mechanical, chemical, and physical properties. [2][3][4] These fiber reinforcements are suitable for applications under a wide temperature range from À200 C to +600 C. 5 Another advantage is that basalt fibers are naturally available and recyclable materials that do not require chemical processing during manufacturing 6,7 and have a similar chemical composition to glass fibers making them a suitable alternative. [8][9][10] The only drawbacks of basalt fibers are their slightly higher density and costlier than glass fibers.…”

“…Basalt fibers are gaining the interest of researchers as well as industry as an alternative to glass fiber reinforcements as they possess very similar mechanical, chemical, and physical properties 2–4 . These fiber reinforcements are suitable for applications under a wide temperature range from −200°C to +600°C 5 .…”

A comparative study of static and fatigue performance of glass and basalt fiber reinforced epoxy composites

“…Basalt fibers are gaining the interest of researchers as well as industry as an alternative to glass fiber reinforcements as they possess very similar mechanical, chemical, and physical properties. [2][3][4] These fiber reinforcements are suitable for applications under a wide temperature range from À200 C to +600 C. 5 Another advantage is that basalt fibers are naturally available and recyclable materials that do not require chemical processing during manufacturing 6,7 and have a similar chemical composition to glass fibers making them a suitable alternative. [8][9][10] The only drawbacks of basalt fibers are their slightly higher density and costlier than glass fibers.…”

“…Basalt fibers are gaining the interest of researchers as well as industry as an alternative to glass fiber reinforcements as they possess very similar mechanical, chemical, and physical properties 2–4 . These fiber reinforcements are suitable for applications under a wide temperature range from −200°C to +600°C 5 .…”

A comparative study of static and fatigue performance of glass and basalt fiber reinforced epoxy composites

Loading Capacities of Bonded Composite Pipe Joints of Different Structures