Go Green Color Antiskid Pavement (Color Ceramic particle anti-slip pavement) is a combination of two-component polyimide resin adhesive and ceramic aggregates of various specifications, colors and sizes; The resin is applied to the original asphalt or cement pavement in precise amounts, a layer of ceramic particles is applied to form a rough and non-slip surface. Common colored ceramic particle pavements are available in six colors: green, yellow, blue, red, white, and gray.
1 ~ 3 mm -- thin non-slip road - sidewalks, bicycle lanes
3 ~ 5 mm---medium-sized non-slip road surface---small motor vehicle lane
5～8 mm---Thick non-slip road surface---Heavy motor vehicle lane
※ Reducing splashing water, good water dissipation on the road surface, high anti-slip performance, bright colors.
※ The construction is rapid and the laying efficiency is high, which means low working hours.
※ Application to tunnel traffic can improve traffic safety and reduce traffic accident rate.
※ Quick curing to reduce traffic delay caused by construction.
※ Reducing the working area, a single road area can be constructed.
※ Low cost, save half the cost compare to other solutions in Europe.
※ The noise is reduced, and the fine structure made of aggregate has the effect of conducting audio.
※ Applied on cement road to reduce noise by 3 or 4 decibels.
※ Shorten the braking distance, excellent anti-slip performance can reduce the braking distance by 40%. In addition, heavy trucks do not brake lock when turning at the corner.
※ The minimum thickness: the design thickness is at least 3mm, no need to adjust the street facilities, nor affect the drainage, light weight: the minimum cover per square meter can only be 5~6 kg.
※ The softening point is high, and the hot weather in summer will not be as soft as the asphalt road.
Residential sidewalks, square, bicycle lane, landscape road, scenic area, non-motor vehicle lane, bus stop, bus & BRT lane, highway tunnel extrance, toll station, curves, ramps, speed bumps, etc.
Go Green Color Antiskid Pavement System Materials