Recycled plastic additives are increasingly being used in road surfaces. This road surface is stronger and more durable. Today, this technology is used and developed by manufacturers from different countries.

Recycled plastic has many uses, and one of them is road construction. Today, coatings based on recycled plastic are one of the most promising directions in this domain.

The road surface, created using recycled plastic, has increased strength and high water resistance.

Benefits of this approach include reduced road maintenance costs, lower asphalt costs, and reduced waste disposal costs. At the same time, the road surface created using recycled plastic has increased strength (including tensile strength) and high water resistance, has good grip, and is more resistant to engine oil and fuel. Due to the plasticity of the additive, it is less deformed over time, and the number of cracks that appear during operation is minimal.

For the first time, the technology of using recycled plastic in road construction was patented in 2002 by the Indian KK Plastic Waste Management Ltd. The company's engineers have developed a polymer blend KK PolyBlend, based on recycled plastic bags, plastic cups and PET bottles.

Pavement created with KK PolyBlend. Photo: facebook.com/plasticroads.

For every kilometer of road laid with MR pellets, about 684,000 PET bottles or 1.8 million plastic bags.

The mixture replaces 8% of the bitumen in the asphalt mix and improves pavement performance. In Bangalore, where company-owned waste treatment plant, about 2000 km of roads were laid using KK PolyBlend. In total, this required 8000 tons plastic waste. The pavement has stood the test of time: in 2009, India's Central Pollution Control Board conducted a study that showed that roads created using the new technology maintain the integrity of the pavement without cracks and potholes. The plastic component stiffens the bitumen and prevents water from seeping into the coating. According to the producers of "plastic" bitumen, the amount of recycled waste required to lay one kilometer of the road is about 1.5 tons (which is 3 to 4 tons of unrecycled plastic).

The idea was picked up by the Scottish company MacRebur. Toby McCartney, its founder and mastermind, has developed its technology for the production of pellets from recycled plastic called MR. In total, the company offered three modifications of the pellets. MR6 is designed to increase the strength and shape of asphalt on low speed roads or at bus stops and is effective in hot climates. MR10 improves blade flexibility and stability in cold conditions. And MR8 is proposed as a complete replacement for bitumen.

Asphalt paving using MR. Photo: macrebur.com.

Using 20% ​​recycled plastic in the form of low-melting granules can reduce asphalt paving temperatures by 40%.

According to McCartney, the technology can solve two problems at once: improve the quality of roads and solve the problem of plastic waste. However, he refuses to fully disclose the composition of his innovative development, which, apart from him, is known only to two co-founders of MacRebur. They point out that their solution includes the use of non-recyclable plastics intended for landfill or incineration. For every kilometer of road built using MR pellets, about 684,000 PET bottles or 1.8 million plastic bags are used. The company's specialists claim that the technology increases the strength of the road surface by 60% and extends its service life by 10 times.

The first road built using MR pellets was opened in the northwest of the UK, in the county of Cumbria, in 2017. By 2019, the development reached the British capital: “plastic” asphalt was used to lay a bike path passing through the Queen Elizabeth Olympic Park in London.

The first plastic road in Cumbria. Photo: facebook.com/pg-macrebur.

Founded in 2011 and recognized last year as one of Canada's fastest growing companies, Green Mantra develops polymer additives based on recycled plastics not only for road construction, but also in the asphalt roofing and composites industries. In addition, the company is building a production line with new technology that can convert polystyrene waste into modified ink resins. But its main development is innovative technology, which makes it possible to use up to 20% of recycled plastic in the form of low-melting granules when creating a roadway and thereby reduce the temperature of asphalt laying by 40%. Today, modified asphalt is being used extensively in Vancouver, including on high-traffic sections of arterial roads.

Local authorities have set themselves an ambitious goal - by 2020 to turn Vancouver into the "greenest" city in the world (or rather, add the finishing touches).

Local authorities have set themselves an ambitious goal - by 2020 to turn Vancouver into the "greenest" city in the world (or rather, add the finishing touches). As part of the new philosophy, a project is being implemented today to create road surfaces from asphalt (80%) with the addition of recycled plastic (20%). Hybrid asphalt will retain its usual dark gray color and rough texture.

The innovation process was developed by Green Mantra of Toronto and implemented by Green Roads. This idea has many advantages, starting with the possibility of recycling plastic for environmental and economic benefits. Plastic bottles, milk cartons and disposable cups are not just trash to be disposed of - they are valuable raw materials for fabrics, containers, household items, and now building material for the streets.

In order for the plastic to become part of the asphalt, it is melted into a paste and mixed with the rest of the ingredients. As a result, it was possible to reduce the production temperature of a completely ready-to-use pavement from 160 to 120 ˚С, which allows significant energy savings. At the same time, 300 tons less greenhouse gases and 30% less volatiles are emitted into the atmosphere per year. organic compounds(VOC) in comparison with traditional road construction works. Additional advantage– the ability to lay new asphalt even in cold weather.

The plastic in the asphalt will make the pavement much stronger and significantly extend its lifespan. But even when cracks begin to appear on the road surface over time, repairs will be much easier than with conventional asphalt. The latter must first be heated, then crushed, mixed with reducing components and re-tamped. It will be enough to heat the hybrid coating and redistribute it - no more difficult than playing with plasticine for children!

“We have been working on this project for over a year to find the best way to use plastic waste on the roads and make sure it is safe,” says Chief Engineer and Green Roads manager Peter Judd. “We started testing on small sections of the road back in July, and on November 15 we changed the scale of the experiments and “paved with asphalt” the whole street. True, the production of hybrid material is 3% more expensive, a no brainer that the costs are offset by both the benefits for nature and the vast prospects for the future.”

Peter Judd dispels skeptics' doubts that the use of plastic in asphalt is potentially dangerous. Humanity will have to recycle plastic waste anyway - so why not with maximum benefit for motorists? To the statement that it is not worth increasing the toxicity of roads where there is already asphalt and oil, the city engineer simply answers: “Plastic is obtained from oil, like asphalt - it is the same hydrocarbon. I don't think it's more dangerous to mix them than just use asphalt."

By the way, in the city of Phoenix, Arizona, asphalt is mixed with recycled rubber tires, and not only for the sake of liberating city dumps. Residents are happy: when it rains, such a road surface is less slippery - and therefore safe for drivers, and when the rain stops, the roads dry out very quickly. In addition, traffic noise has been significantly reduced. In Washington DC, research engineer Haifang Wen is also thinking about creating a completely new road surface: the possibility of replacing asphalt with condensed waste vegetable oil.

The main components of this material are crushed stone, ordinary river sand, bituminous resin, as well as polymeric materials for laying on the surface. The last component is not always used, as it is expensive, they are mainly used in the construction of motorways and highways. Despite the fact that all the components can be found in the shed, it will be a little difficult to make a paving in the country. You need to seriously prepare for this process.

We need a container for mixing the “ingredients”, a hearth of fire (can be a fire) for 6-8 hours continuously, about 100 liters of water to cool the suspension, as well as one of the pastes so that everything is kept in a heap. Resin or bitumen (preferably) can play its role. Consider step by step instructions for manufacturing.

Step 1 We prepare the container.

The first step is to make a prototype of a concrete mixer, since it would be irrational to “kill” an expensive and useful item. For our purposes, a metal barrel from oil or diesel fuel, in which a branded product is sold, is suitable. If you don’t have one, you can buy it for a penny (or borrow it free of charge) from any farmer or from the company itself, which pours oil into retail containers. They are often thrown into scrap metal as a waste product. Close the lid, drill holes in the center from the bottom. We pass a metal rod (pipe, corner, square, etc.) and scald inverter welding so that there are no leaks anywhere. We weld an L-shaped twig to one of the edges, it turns out a “spit”.

Step 2 We mix the components.

We pour crushed stone into our “concrete mixer”, add a little sand (2: 1) there, mix everything thoroughly. You can’t collect wet building materials - they will immediately stick together, and it will be very difficult to pick them off the metal walls.

Step 3 We heat bitumen and polymer additives.

In a separate container (it is best to take a 15-liter bucket), we need to heat the bitumen to a boil, for better elasticity, you can add shampoo to it. It then burns out, but it will be much more convenient to interfere. We also add polymers and plasticizers there.

Step 4 We mix everything together.

You don’t need a lot of imagination here, just take and add boiling bitumen to a preheated barrel with crushed stone and sand. Important: you can’t mix if the barrel and all the components are not warmed up - the bitumen will quickly cool down and it will be unrealistic to stir. For convenience, you can first add 50 liters of water to a barrel and bring to a boil. After that, pour in the bitumen and stir until the water evaporates.

The boiling point of water is 100 degrees, exactly what we need for bitumen to make it fluid and sticky. Remember that you can not overheat this material - it ignites at a temperature of 170 degrees, so watch the water. Just finished - pour it out!

Step 5 We fill in the holes.

The area into which you will pour the asphalt must be thoroughly cleaned, preferably blown out with a compressor. After pouring the hot mixture, you need to take a roller or any other tool (rammer) and compact the material. Be sure to moisten the metal of the tool with water so that it does not stick to the bitumen during tamping.

If you follow the instructions, then making asphalt at home will be safe, fast and even very interesting!

What is cold asphalt and what is its feature

Quite recently, a rather interesting product, polymeric asphalt, came to the territory of Russia. Its peculiarity is that it can be laid absolutely at any temperature. Tests showed excellent viscosity and stickiness even at -20C, which makes it possible to repair roads or make an entrance to the cottage even in winter.

It includes fluid bitumen grade SG or MG 70/130, characterized by increased viscosity. It also contains special plasticizers and modifiers that act similarly to "cold welding". Due to this, it is possible to obtain excellent results even at negative temperatures. The paths will have increased strength and will last much longer than conventional asphalt. The technology has been introduced for more than 5 years in Russia, and now anyone can buy such material.

It makes no sense to look for a method on how to make asphalt with your own hands, since cold technology implies a high-tech manufacturing process under pressure and is not available at home. Its cost is much higher than the usual road surface, so it is rarely used in industry. But each summer resident can buy the right amount for making paths in the garden or a small driveway for a car. You can buy in a regular store. Installation does not require special knowledge: just pour the mixture into the right place and compact it in any convenient way, even with car tires.

How to make new asphalt from old pavement

Another very popular method to ennoble a site without much capital investment is to use the old pavement as the main raw material for the manufacture of a new one. To do this, we need about 100 kg of old coating, which is thrown away during the repair of the highway, fresh bitumen, 10 kg of resin for elasticity and a concrete hardener. Consider step by step what needs to be done.

we make a concrete mixer with the help of an oil barrel and a twig as described in the first section of the article.

Step 2 We grind the components.

With a hammer, it is necessary to break all the large pieces left from old road. Check that the fraction of all components is fine, up to 40 mm. Add some sand there, mix everything. We begin to heat the barrel with the old asphalt and sand placed in it, pour 60-70 liters of water, bring it to a boil and “cook the soup”.

Step 3 We prepare a solution for addition.

Now it's time to take care of the liquid term. Since the old pavement already contains some bitumen, we will need 50% less bitumen. That is, we take about 10 kg of bitumen and 10 kg of resin for 100 kg of material, heat it to a boil. Then pour it all into a heated barrel with other components, mix thoroughly with a metal rod.

Homemade asphalt from free components is ready. Now it remains to pour it into pre-cleaned pits or onto a site prepared for laying. Such material will serve you for more than one year and will be no worse than "branded".

In some places, such ideas seem like madness, but there is certainly some truth in every madness. Let's look for it here for example.

The European company VolkerWessels, based in the Netherlands, offered to build car roads from recycled plastic. According to the representatives of the firm, new technology will reduce construction costs and increase the durability of highways.

I didn't find any information on how much mass this road can support (who knows?), but if a section breaks I think that replacement and a hole will be a decent problem.

But here are more details about such a road ...

The roads will consist of separate hollow sections interconnected. Recycled plastic, resistant to corrosion and atmospheric conditions, is able to withstand temperatures from minus 40 to plus 80 degrees Celsius. The service life of such a coating can be about three times longer than that of asphalt. The absence of the need for constant repairs will reduce the number of traffic jams.

Another advantage of a plastic road is its ease of installation in sandy and depleted soil. In addition, hollow niches inside the panels can serve to drain water, as well as be used for laying pipes and cables.

“The potential of our concept is very high. In the future, we expect to involve new partners in the development, as well as plastic processing enterprises, which will contribute to the development of the entire industry,” VolkerWessels noted.

The only disadvantage of the plastic road is that it can be slippery when it rains. In addition, the construction of such roads will take weeks, not months. The plastic road is light, which reduces pressure on the ground, and hollow, which provides quick access to underground utilities.

On this moment The municipality of the city of Rotterdam became interested in the technology of creating plastic roads.

According to VolkerWessels, the material supplier for the production of PlasticRoad road blocks will be the ocean, which has accumulated great amount plastic waste. In addition to cleaning up the environment, subject to widespread this technology it will also reduce harmful emissions.

By the way, asphalt accounts for 2% of all carbon dioxide emitted into the atmosphere by the global transport system.

The possibility of testing "plastic" roads in real conditions is considered by the authorities of Rotterdam, by order of which the project was developed. Most likely, a working prototype of PlasticRoad will be built in a local "street laboratory" within three years.

VolkerWessels has taken the issue of building modern and sustainable roads very seriously. The goal of the project is to produce a high-quality and durable road surface.

The main advantage of the new type of roads is that they consist of modules. Putting them on is easier and faster. Construction time will be reduced to a few weeks. Compacted sand will be used as a reliable base. Plastic modular roads are proposed to be laid in such a way that empty spaces remain inside them. Later, cables and pipes will be laid in them. When working with cable laying, there will be no need to break the asphalt, which will prevent traffic jams.

But the authors of the idea of ​​building a modular type of plastic roads look further. They expect to upgrade them in the future as follows: sensors will be placed under the road surface that collect data on the traffic flow of cars. Rainwater will drain off the road, and the bottom of the plastic will be heated so that there is no ice. How will they do it? Passing cars will create an oscillation that will turn into electricity. It will be used to heat plastic roads.

Benefits of plastic coating:

  • Highly resistant material, does not deform under the pressure of machines;
  • Withstands high temperature differences (from - 40 to + 80);
  • Repairs must be made every 12 years;
  • Service life 30 years.

The implementation of the project will lead to large financial savings from the state treasury. For comparison: the repair of asphalt roads should be done every 4 years.

The first plastic roads may appear in the next three years. Initially, a prototype will be built, the design will be tested for strength and stability. Calculations will be made for the maximum allowable load on the platform, after which the project will be put into operation. The plastic track will be tested in Rotterdam. To implement the project, it is necessary to find as many partners as possible who understand the processing of plastic waste and are able to invest financial resources to promote the idea.

Environmental benefits of plastic roads

Of course, in order to create a network of plastic roads, it is necessary a large number of consumable. They decided to collect plastic from all possible places in environment. Will recycle bottles made of plastic, which is intended for recycling. The project developers propose to collect material from the oceans. Dutch companies using their technology began to catch garbage from the ocean.

For guard ecological environment it is important to reduce the level of carbon dioxide emissions. The construction of asphalt roads releases up to 1.6 million tons of carbon dioxide into the air. This figure is 2% of the emissions of all gases into the air when cars move along highways. Roads made of plastic will eliminate the problem of excess emissions.