Abstract
Wind turbine blades that face end-of-life recycled mechanically. The recycled material was first comminuted via a hammer-mill through a range of varying screen sizes, resinated and compressed to a final thickness to manufacture second generation composites fabricated using recycled wind turbine material and a polyurethane adhesive. Physical properties (water sorption (WA), Thickness swelling (TS)) dataset of composites made from recycled wind turbine blades presented. Dataset also presented the influence of resin level, moisture content, mill screen size and density on the physical properties of composites.
Highlights
Dataset demonstrating physical properties of recycled wind turbine blade composites Seyed Hossein Mamanpush n, Hui Li, Karl Englund, Azadeh Tavousi Tabatabaei
Physical properties (water sorption (WA), Thickness swelling (TS)) dataset of composites made from recycled wind turbine blades presented
Thickness swelling and water sorption of recycled wind turbine blade composites presented that give the researchers clear vision about their physical properties
Summary
Seyed Hossein Mamanpush, et al, Recycled wind turbine blades as a feedstock for second generation composites [1]. Thickness swelling and water sorption of recycled wind turbine blade composites presented that give the researchers clear vision about their physical properties. Researchers could be referred to this dataset to design and analyze different experiments on recycled win turbine blades. Presented comparison between the recycled wind turbine blade composites and wood-base composites shows the potential utilization of this recycled material in different fields. For obtaining physical properties of composites fabricated using recycled wind turbine blade materials, water sorption and thickness swelling were performed based on ASTM D1037-12. Presented dataset include influence of resin level (MDI(%)), moisture content(MC(%)), mill screen size (MSS(mm)) and density on the physical properties of second generation composites
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