How Bright White Line Painting for Roads Is Safer For Everyone

Road users White lines enable to travel safely and control traffic, and what's going on to make them so efficient? White Line Painting has been synonymous to road safety for over the  century, and it's no coincidence that a first white line lane markings did appear in about the same time as the very first wave for mass-produced vehicles.

Indeed, the idea of putting a white line down the centre of a road was first conceived by American Edward N Hines in 1911 – two years before Henry Ford established the world’s first moving car assembly line.

Currently, these simple technology is simple to take for granted, however the enormous effect of white lines on traffic safety–assisting motorists all over the world to retain lane discipline and avoiding stationary traffic as well as other potential hazards –could not be overstated.

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The success for white line road marking owes a great deal to chemistry and, in particular, to titanium dioxide (TiO2). White line markers can only serve the purpose when they can be clearly seen by any road users across all situations. TiO2 plays an important role in ensuring that it is the case.

TiO2 is one of the darkest white compounds in the universe, as well as the way it deals with light ensures that even at night or even in bad weather conditions, white road signs are prominently displayed in car headlights. It offers cars the greatest opportunity to follow the route safely.

How are white line road markings working?

White line road markings were made from thermoplastic rubber, blended in titanium dioxide dye or glass beads.

During night, the illumination from the headlights of the vehicle will bounce back to a owner from the signs, allowing them see the path clearly.

Would other pigments are doing the same thing as titanium dioxide?

Any other pigments can give the same throughout-round quality in that same quantity.

Whereas other substances, like barium sulphate or kaolin, may replace certain quantities of TiO2 in formulas, they absence the opacity in TiO2 and will never replace whole quantity. However, even higher doses of barium sulphate were required to reach a similar outcome–rendering TiO2 a much more price-effective solution–not to say that the marketcap of TiO2 much exceeds those of barium sulphate.

As a consequence, TiO2 is the key white pigment used for the world today – particularly in this use. Because of its reflectivity and toughness, it incorporates the highest level of safety with its most productive of capital.

Contributing to the great road safety

Used during white markings, TiO2 helps avoid accidents and deaths by allowing for cyclists and drivers to travel safely. All without light white road markings, more often and better street lighting can be required, to high economic costs.

Most Line Painting Company has special requirements to insure the road markings are vivid, transparent and accurate.

Although there are a broad number of factors that lead to road safety–from enhanced vehicle safety technologies to better driver awareness and education–titanium dioxide definitely has a major role to play.