HDPE Extruded Windbreak Mesh is widely used in gardens, nurseries and agricultural fields protecting animals, people, and garden crops from strong wind, heavy rain and snow. HDPE material with UV additive for extended life. We mainly supply four types of HDPE extruded windbreak mesh as the following:
The mesh is stretched during production and this increases the tensile strength of the fence. It is ideal in harsher environments, available in 50% / 60% wind reduction.
Application:
The heavy duty windbreak is our most popular windbreak, providing an attractive look whilst still being one of the heaviest, most durable windbreaks we supply. The heavy duty windbreak is ideal for use in gardens, nurseries and for sheltering animals and crops in agricultural fields. Made from Extruded HDPE with UV additive for extended life. Roll height: 1m, 2m. Roll length 30m, 50m, 60m, 100m.
Designed to reduce windspeed whilst minimising turbulence. This high density polyethylene windbreak provides nurserymen with cost-effective protection where no natural shelter exists. Can also be used for ground stabilisation.
This type extruded mesh is heavier and stiffer than knitted extruded mesh and may be supported by timber posts, plastic or metal fencing pins. It can also be used as a shade mesh.
Product Details:
HDPE Extruded Windbreak Mesh.
UV additive for longer life, Rot Resistant.
Small Mesh Size: 4 × 4mm.
Colour: Green, black.
408 grams per square metre.
60% Wind Reduction.
Inquiry for Our Product
Use: agriculture, industry, construction, fisheries and other industries. Product Features: windproof performance, Anti Wind Netting openings was 40%, and the use of single / double mesh structure, with superior wind performance; Anti Wind Netting makes the scope of protection ...
HDPE knitted windbreak netting against wind and dust Our knitted windbreak netting is a great value and popular windbreak made from HDPE Monofilament with UV additive for longer life. Monofilament netting gives greater strength for windbreak and demanding applications due to ...