Contribution of the radiative transfer mechanism to the total thermal conductivity of anisotropic porous materials.
Polymer Testing, 2024, 136, 108487 Torre, J.; Vernardo, V.; Pinto, J.; Rodriguez-Perez, M. A.
Effect of egg white protein and water content on the stabilization mechanisms of natural rubber latex foams obtained from microwave radiation.
Advanced Engineering Materials 2024, 2301922 Amezua-Arranz, C.; Salmazo, L. O.; Lopez-Gil, A.; Rodriguez-Perez, M. A.
Evaluation of the acid hydrolysis as pre-treatment to enhance the integration and functionality of starch composites filled with rich-in-pectin agri-food waste orange peel
Quilez-Molina, A. I.; Salmazo, L. O.; Amezua-Arranz, C.; Lopez-Gil, A.; Rodriguez-Perez, M. A. Industrial Crops and Products 2023, 205, 117407
Thermal conductivity aging and mechanical properties of polyisocyanurate (PIR) foams produced with different contents of HFO
Torres-Regalado, P.; Santiago-Calvo, M.; Gimeno, J.; Rodriguez-Perez, M. A. Journal of Applied Polymer Science 2023, 140, 1-14
Opening pores and extending the application window: Open-cell nanocellular foams
Macromolecular Materials and Engineering 2023, 38, 2300087. Cuadra-Rodriguez, D.; Barroso-Solares, S.; Laguna-Gutierrez, E.; Rodriguez-Perez, M. A.; Pinto, J.
Evaluation of methods to accurately characterize the thermal conductivity of micro-and nanocellular polymers based on poly(methyl-methacrylate) (PMMA) produced at lab-scale.
Sanchez-Calderon, I.; Sillero, A.; Lizalde-Arroyo, F.; Bernardo, V.; Martin-de Leon, J.; Rodriguez-Perez, M. A. Evaluation of methods to accurately characterize the thermal conductivity of micro-and nanocellular polymers based on poly(methyl-methacrylate) (PMMA) produced at lab-scale. Polymer Testing 2023, 117, 107842.
Micronization as a solution for enhancing the thermal insulation of nanocellular poly(methyl-methacrylate) (PMMA).
Sanchez-Calderon, I.; B; Bernardo, V; Cuadra-Rodriguez, D.; Martin-de Leon, J.; Rodriguez-Perez, M. A. Micronization as a solution for enhancing the thermal insulation of nanocellular poly(methyl-methacrylate) (PMMA). Polymer 2022, 261, 125397.
Methodology for measuring the thermal conductivity of insulating samples with small dimensions by heat flow meter technique.
Sanchez-Calderon, I.; Merillas, B; Bernardo, V; Rodriguez-Perez, M. A. Methodology for measuring the thermal conductivity of insulating samples with small dimensions by heat flow meter technique. Journal of Thermal Analysis and Calorimetry 2022, 147(22), 12523-12533.
Thermal conductivity of low-density micro-and nanocellular poly(methyl-methacrylate) (PMMA): Experimental and modeling.
Sanchez-Calderon, I.; B; Bernardo, V; Martin-de Leon, J.; Rodriguez-Perez, M. A. Thermal conductivity of low-density micro-and nanocellular poly(methyl-methacrylate) (PMMA): Experimental and modeling. Materials and Design 2022, 221, 110938.
Influence of the dispersion of nanoclays on the cellular structure of foams based on polystyrene.
Ballesteros, A.; Laguna-Gutierrez, E.; Cimavilla-Roman, P.; Puertas, M. L.; Santaren J.; Rodriguez-Perez, M. A. Influence of the dispersion of nanoclays on the cellular structure of foams based on polystyrene. Journal of Applied Polymer Science 2021, 138, 51373.