According to Bernucci the problem is not the construction companies, which have information about the quality of the recycled material, but the lack of technical preparation of some public administrators responsible for contracting the paving. “The construction company follows the contract notice for the service. Few of the technicians in public administration are capable of structuring a contract notice that encourages the use of recycled material and reduces the environmental impact of the work,” he explains.

Two types of surface are used for the wearing course of roads: one is flexible, made with petroleum asphalt, and the other is rigid, made from Portland cement concrete. Over 95% of works in Brazil use asphalt covering, as in most countries, due to its lower implementation cost, simpler maintenance, and the greater availability of qualified service providers. However, the concrete covering presents greater durability. It is designed to last more than 20 years, whereas the flexible covering lasts for 10 to 15 years. There is no consensus among specialists about using one covering or the other, but the majority suggest using more concrete on roads which receive heavy traffic, such as bus lanes and highways, and for locations where maintenance is difficult, and the prevalence of asphalt on the other roads. For civil engineer Kamilla Vasconcelos Savasini, current coordinator of the LTP and associate professor of the Department of Transport Engineering at POLI-USP, the production processes of the inputs used in asphalt and concrete have a big environmental impact. The biggest impact of asphalt or concrete depends on an analysis of the production cycle of each work, which varies depending on the regional availability of inputs, location, and characteristics of the roads being paved, among other variables. waterproof glue

Asphalt consumption in Brazil reached 1.6 million tons in 2021, according to Petrobras, below the yearly average of around 2 million tons prior to the Covid-19 pandemic. According to Savasini, every kilometer of asphalt paving with a thickness of ten centimeters on a single 3.5-meter-wide lane of road consumes around 50 tons of asphalt. “Reducing the environmental impact of a road or urban work can be done by reusing materials, developing technologies capable of substituting high-impact inputs, such as petroleum products, and by reducing the distances the materials are transported,” says the researcher.

Léo Ramos Chaves / Research Fapesp Magazine A Pothole: Lack of Preventative Maintenance is one of the causes of bad urban paving in the countryléo ramos Chaves / Research Fapesp Magazine

Research centers in the USA and Europe dedicate themselves to the study of bio-binders, chemical products from renewable sources capable of replacing petroleum asphalt as the aggregate binding agent in the surface layer of paving. Results are still in the early stages.

With support from FAPESP, Savasini coordinates research focused on sustainability in asphalt paving, with the development of a bio-binder as a possible alternative to petroleum asphalt being one of the aims. The project team has been investigating different biomasses found in the country.

A few years ago, the Paving Technology Laboratory at POLI-USP took part in research into a bio-binder obtained from an imported by-product of pine wood, capable of replacing traditional asphalt. The bio-binder was developed with Greca Asfaltos and Quimigel, from Paraná and São Paulo respectively, companies specialized in asphalt additives. The new product was tested in 2017 on BR-050, which connects Brasília to Santos, São Paulo State. The result was published in the magazine Construction and Building Materials, in 2021.

“The efficiency of the bio-binder is proven, but it’s production is not economically viable in Brazil,” laments Wander Omena, Research and Development manager at Greca. The production of the bio-binder tested in 2017, he explains, depends on a substance obtained from processing black liquor, a by-product from the cellulose industry, in a biorefinery. “We don’t have a biorefinery for this in Brazil and the cost of importing the input is prohibitive,” he says.

Greca is responsible for introducing rubberized asphalt to the country 21 years ago, made with rubber dust from tires. The innovation comes from the USA, but the asphalt used there contains up to 10% rubber, whereas the Brazilian version uses 15%. Another national innovation was the addition of additives to stabilize the viscosity of the material. The rubber increases the durability of the asphalt, and according to a study by the Paving Laboratory at the Federal University of Rio Grande do Sul (UFRGS), the mixture is capable of decreasing crack propagation by 5.5 times, reducing the need for repair services.

Another advantage is the promotion of the circular economy in the tire industry. Every kilometer of seven-meter-wide paving with the mixture uses a thousand discarded tires. In 2021, Greca reached the mark of 13,000 km of roads resurfaced with rubberized asphalt and 13 million reused tires. Added to the works of other rubberized asphalt suppliers, the total reaches 17,000 km of roads. It is still only a fraction, given the 221,000 km of paved highways in Brazil.

The material is mainly used by private concessionaires. The Anchieta and Imigrantes highways in São Paulo State, that connect the state capital to the south coast, were completely resurfaced with rubberized asphalt and the concessionaire EcoRodovias is using the material as standard for resurfacing the highways it manages. The concessionaires CCR and Arteris also use the product.

The price of rubberized asphalt is around 15% higher than the conventional one, but it has greater durability. In Omena’s opinion, the main obstacle to the material being more widely used in public works is the lack of technical knowledge of most contractors. Abroad, the Brazilian rubberized asphalt formula has already been regulated in China and is being evaluated for use in European countries.

The 2021 Highways Study by the Brazilian National Confederation of Transport (CNT) evaluated the conditions of 109,100 kilometers of Brazilian highways and disapproved the general state of 61.8% of the studied road network. The characteristics studied are the paving, signposting, and geometry of the road. The work, conducted by the CNT, identified the existence of some type of problem with the paving in 57,000 km, a little over half the total. The asphalt covering was classified as bad in 17,300 km and terrible in 6,300 km.

According to civil engineer Liedi Légi Bariani Bernucci, director of the São Paulo State Institute for Technological Research (IPT) and former coordinator of the Paving Technology Laboratory (LTP) at the Polytechnic School of the University of São Paulo (POLI-USP), the highways in Brazil presented a lower quality than those verified in Europe and the USA, but not because of the asphalt used, which has equivalent technical characteristics to that found abroad. “Our biggest problems are the lower life span of the paving normally stipulated in the project, the lack of technological resources of some executors, and the inadequate inspection of work preparation,” she says.

Among the causes of paving defects, the CNT also identified the lack of both preventative maintenance and the inspection of vehicles traveling on the roads with excess weight. The problems occur more on public highways. The CNT Highway Study disapproved the general state of 72% of the sections of highway under public management and 26% of those under private concession.

In urban centers, the quality of asphalt paving is also affected by the disorganized intervention of water, sewage, gas, and other concessionary services that carry out work beneath roads and avenues. Resurfacing of the potholes compromises the integrity of the asphalt layer, often resulting in cracks and splits where rainwater penetrates, causing ruptures and new potholes.

Projects 1. Rheology and chemistry of asphalt binders and bio-binders: tools for understanding the mechanical behavior, aging, and deterioration of floor coverings (nº 17/25708-7); Grant Mechanism Young Investigator Award; Principal Investigator Kamilla Vasconcelos Savasini (USP); Investment R$1,107,576.41. 2. Multi-scale characterization of recycled asphalt mixes for sustainable roads (nº 19/08883-5); Grant Mechanism Regular Research Grant; Principal Investigator Kamilla Vasconcelos Savasini (USP); Investment R$40,808.

Scientific article ESPINOSA, L. V. et al.Multi-scale study of bio-binder mixtures as surface layer: laboratory evaluation and field application and monitoring. Construction and Building Materials. June 14, 2021.

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