Energy-efficient polymer/bitumen roofing materials formulated with non-encapsulated beeswax phase change material [Dataset]
Loading...
Publication date
Advisors
Research group
Center
Related publication
Abstract
With the aim of overcoming the drawbacks involved in PCM encapsulation and taking into account the potential of beeswax as bio-PCM, the main objective of this work is to develop novel energy-efficient roofing materials for building applications by its direct inclusion. These materials are formulated with bitumen (B), styrene butadiene styrene copolymer (SBS) and beeswax (BW) as bio-based phase change material. To that end, the effects of possible interactions between B compounds and BW on thermal storage capacity and technological characterization were firstly evaluated on binary B/BW blends. Afterwards, leakage tests conducted on ternary B/SBS/BW blends revealed that form-stable materials (with no BW leakage) can be manufactured with a maximum BW concentration of 30 wt%. Thus, the prototype roofing material composed of 61.6 wt% B, 8.4 wt% SBS and 30 wt% BW shows excellent thermal stability (no weight loss up to ca. 200 °C) and meets the technological requirements specified by ASTM D8051 for wax-modified asphaltic roofing products. In addition, the selected roofing material displays high thermal storage capacity (ca. 50 J/g) for a long period of time (at least, for 300 heating/cooling cycles), which is reflected in the results derived from the indoor thermoregulation tests conducted in a climatic chamber. Interestingly, the tests conducted on a reduced-scale isolate room indicated a percentage reduction in the heat needed to be removed from the room of 9.3 % when comparing the prototype roofing material with the commercial SBS bituminous binder.
Unesco Subjects
Bibliographic citation
Álvarez-Gallardo, E., Tenorio-Alfonso, A., & Cuadri, A. A. (2025). Energy-efficient polymer/bitumen roofing materials formulated with non-encapsulated beeswax phase change material. Applied Thermal Engineering, 279, 127617. https://doi.org/10.1016/j.applthermaleng.2025.127617. [Dataset]. AM (Depósito de Investigación de la Universidad de Huelva).














