Project Description
Urban Turf ProHit 12.5
Recent advances in yarn and fibre development have meant giant leaps in the performance and durability of sporting surfaces. Our tennis range now includes ProHit 12.5 for intermediate to advanced club competition. An advanced yarn type combined with level of sand infill provides reliable ball bounce, speed and performance. Greater intensity of impact and sudden change of player movement and direction are considerations in the development of this product. Easily installed over existing court surfaces we provide colour options and work in line markings during manufacture and installation.
The Urban Pro Hit (Series 12.5) Surface offers great durability with the sports grade Polypropylene yarn which is made in Australia with state of the art polymer extrusion technology. The UV protected turf will outlast harsh weather conditions an provide a great performing medium – fast paced playing surface.
Spec
Quality: Tufted cut pile premium tennis turf Pile
Content: 100% Homo-Polymer, Polypropylene and U.V. Protected
Yarn Type 1: 890 Tex, TPX, Fibrillated.
Primary Backing: 100% Woven Polypropylene, U.V. Protected 141 gms
Secondary Backing: Maximum Water Resistant and Ultra Bonding Strength Latex
Pile Height: 12.5mm
Pile Length: 29 mm
Pile Gross Weight: 1572 g/m2
Secondary Coating Weight: 800 g/m2
Total Weight: 2513 g/m2
Shipping weight: 9.5kg/LM
Machine Gauge: 3/16” (4.76mm)
Stitch Rate Per Metre: 290
No. Stitches/SQM: 60,900
No. Pile Per SQM: 121,800
Width: 3.71m
Colour: Green, Rust, Blue, White, Yellow
Infill material: Washed and dried silica sand
Grade (mm): 0.3mm to 0.8mm Sand infill rate: 12kg/ m2
Warranty: This product comes with a 7 year manufacturer’s warranty protecting the consumer’s product against UV protection failure, manufacturer’s workmanship, primary and secondary backing failure, unreasonable product deterioration under normal usage circumstances. This warranty does not cover misuses, negligence, incorrect installation methods or use of non specified chemicals on the surface.