Abstract
The use of industrial waste in civil engineering applications constitutes a potential innovative effort to reduce environmental degradation and enable a sustainable use of natural resources. This paper reports a comprehensive laboratory study that was performed to evaluate the rubber granulates from End-of-Life Tyres (ELTs) as a lightweight backfill material in retaining walls. Various tests have been performed to provide specific information on the mechanical and physical properties of a detailed range of particle sizes smaller than 12 mm, with six different particle size distributions (S1: 0.0–0.8 mm/S2: 0.6–2.0 mm/S3: 2.0–4.0 mm/S4: 2.0–7.0 mm/S5: 90% 2.0–7.0 mm + 10% 0.6–2.0 mm/S6: 50% 2.0–7.0 mm + 50% 0.6–2.0 mm). The density and unit weight, compaction energy, compressibility, shear strength, and deformability have been evaluated to determine their performance. As a main conclusion, the research confirms that rubber granulates from ELTs possess great potential as backfill material behind retaining walls. The characteristic values of the geotechnical parameters have been estimated according to Eurocode 7. The friction angle results range from 18.27 to 23.21 degrees, and the cohesion results are wide-ranging, with values from 9.35 to 17.83 kPa. For this reason, two cantilever L-shaped retaining walls, selected as representative case studies, have been tested with these sample properties. The results of the geotechnical verifications are presented together with a comparison of the safety factors in accordance with the Spanish standard design (CTE-DB-SE-C) and the European (EC7-1) regulations. The calculations indicate that the overdesign factors (ODF) achieved in the verifications using the material properties of the S4, S5, and S6 combination improve the calculation results obtained if a conventional filler material such as sand is considered.
Highlights
We live in a system where the incompatibility between economic growth and ecological balance is becoming increasingly evident
The second part of this article presents the analysis of the safety factors based on the Eurocode 7: Geotechnical design—Part 1: Geotechnical Project (EC7-1) standard (UNE-EN 1997-1:2016) and the CTE-DB-SE-C (v2019) with the use of recycled rubber tyre granulates as a lightweight backfill and a top layer of half a metre of sand behind a cantilever retaining wall
For the 5.80 m elevation wall, these results show a difference between 58.11% and 69.25% with respect to the overdesign factors (ODF) limit, while according to the CTE-DB-SE-C the difference is 29.82% with respect to the ODF limit sliding, at least 25% of the vertical stresses are considered to be acting on the back of the wall
Summary
We live in a system where the incompatibility between economic growth and ecological balance is becoming increasingly evident. Aggregates are the second most consumed raw material after water. According to Eurostat [1], 6917 million tonnes of materials were used in Europe in 2019 (14.22 tonnes per capita), with the construction and maintenance of buildings consuming a large part thereof. It can be said that southern European countries tend to recycle relatively little, due to the abundant supply of natural aggregates with suitable quality at low prices [2,3]. It has been demonstrated that the substitution of recycled aggregates for conventional materials leads to reductions in CO2 emissions. In large-scale projects, reductions can reach more than 50%, obtaining environmental benefits [5]
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