Much of what we're able to own or where we're able to travel to
is the result of motorable roads constructed using asphalt. Without it,
vehicles wouldn't be able to deliver what we need to create
infrastructure and the many necessities we require.
This petroleum-based substance is produced in several grades, each harder than the next. Roads are constructed using asphalt grades chosen by engineers to account for freeze/thaw cycles and durability. Let's look at the different forms.
Hot mix asphalt concrete
The commonest type of asphalt used, HMAC offers the most durability owing to being applied at higher temperatures which allows it to compact extremely well. Despite releasing large amounts of smoke and dust which are undoubtedly hazardous to health, it's the only form that can endure high traffic for long periods without cracking.
The high temperature allows proper drying of aggregates which maintains stability and prevents moisture from being trapped beneath. Equipment modifications are unnecessary because the technology is older than WMA. Cost is, therefore, significantly reduced especially when HMAC is applied to long stretches of road.
Warm mix asphalt concrete
In WMA, lower temperatures are applied to maintain viscosity. This has environmental benefits because less energy is used and less smoke is produced, two factors that are commonly experienced with hot mix asphalt.
The greener aspect aside, WMA is relatively easy to manipulate because viscosity is not very high. Compacting is also faster and easier which affects overall paving cost and labor. Roads located through tunnels where ventilation is limited usually see workers being subjected to a lot of smoke and dust. Since WMA reduces the amount of both, it's a good choice when constructing roads in confined spaces.
Cold mix asphalt
Where WMA and HMAC need to be mixed and applied under heat, cold mix asphalt eliminates the necessity of high temperatures. Soapy water is instead used to emulsify the asphalt. The end result, though suitable for patching HMAC, is not designed to withstand the daily grind of vehicles. As such, it's best applied on low traffic roads such as service roads and residential driveways.
Stone mastic asphalt
Also called stone-matrix asphalt, SMA is ideal for high traffic roads, residential streets and even roofs. It has a lower bitumen content with aggregates making up the chunk of the percentage.
No equipment modification is required for laying SMA though it has some limitations. Increased mixing time, material cost and initial low friction must be contended with. The low friction is a result of the binder film which, incidentally, is removed over time to increase friction.
Cut-back asphalt concrete
Considered to be the least environmentally friendly form, cut-back asphalt sees the binder dissolved in kerosene to reduce viscosity and make it easier to work with. The pollution generated is very high so it's no longer used in certain countries.
Despite being a widely used material, asphalt is hazardous to health through fumes and skin contact. However, road contractors and engineers make sure workers don full protective gear during the mixing and application phases to greatly minimize adverse effects.
No other material has proven to be so durable for roads as asphalt. So inspite of the health hazards it will continue to be the material of choice for as long as a substitute equaling it in strength and longevity is found. It's also 100 percent recyclable, an extremely important factor where environmental benefits and cost-effectiveness are concerned.
This petroleum-based substance is produced in several grades, each harder than the next. Roads are constructed using asphalt grades chosen by engineers to account for freeze/thaw cycles and durability. Let's look at the different forms.
Hot mix asphalt concrete
The commonest type of asphalt used, HMAC offers the most durability owing to being applied at higher temperatures which allows it to compact extremely well. Despite releasing large amounts of smoke and dust which are undoubtedly hazardous to health, it's the only form that can endure high traffic for long periods without cracking.
The high temperature allows proper drying of aggregates which maintains stability and prevents moisture from being trapped beneath. Equipment modifications are unnecessary because the technology is older than WMA. Cost is, therefore, significantly reduced especially when HMAC is applied to long stretches of road.
Warm mix asphalt concrete
In WMA, lower temperatures are applied to maintain viscosity. This has environmental benefits because less energy is used and less smoke is produced, two factors that are commonly experienced with hot mix asphalt.
The greener aspect aside, WMA is relatively easy to manipulate because viscosity is not very high. Compacting is also faster and easier which affects overall paving cost and labor. Roads located through tunnels where ventilation is limited usually see workers being subjected to a lot of smoke and dust. Since WMA reduces the amount of both, it's a good choice when constructing roads in confined spaces.
Cold mix asphalt
Where WMA and HMAC need to be mixed and applied under heat, cold mix asphalt eliminates the necessity of high temperatures. Soapy water is instead used to emulsify the asphalt. The end result, though suitable for patching HMAC, is not designed to withstand the daily grind of vehicles. As such, it's best applied on low traffic roads such as service roads and residential driveways.
Stone mastic asphalt
Also called stone-matrix asphalt, SMA is ideal for high traffic roads, residential streets and even roofs. It has a lower bitumen content with aggregates making up the chunk of the percentage.
No equipment modification is required for laying SMA though it has some limitations. Increased mixing time, material cost and initial low friction must be contended with. The low friction is a result of the binder film which, incidentally, is removed over time to increase friction.
Cut-back asphalt concrete
Considered to be the least environmentally friendly form, cut-back asphalt sees the binder dissolved in kerosene to reduce viscosity and make it easier to work with. The pollution generated is very high so it's no longer used in certain countries.
Despite being a widely used material, asphalt is hazardous to health through fumes and skin contact. However, road contractors and engineers make sure workers don full protective gear during the mixing and application phases to greatly minimize adverse effects.
No other material has proven to be so durable for roads as asphalt. So inspite of the health hazards it will continue to be the material of choice for as long as a substitute equaling it in strength and longevity is found. It's also 100 percent recyclable, an extremely important factor where environmental benefits and cost-effectiveness are concerned.
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