Mariaenrica Frigione scite author profile

In materials research, the development of polymer nanocomposites (PN) is rapidly emerging as a multidisciplinary research field with results that could broaden the applications of polymers to many different industries. PN are polymer matrices (thermoplastics, thermosets or elastomers) that have been reinforced with small quantities of nano-sized particles, preferably characterized by high aspect ratios, such as layered silicates and carbon nanotubes. Thermal analysis (TA) is a useful tool to investigate a wide variety of properties of polymers and it can be also applied to PN in order to gain further insight into their structure. This review illustrates the versatile applications of TA methods in the emerging field of polymer nanomaterial research, presenting some examples of applications of differential scanning calorimetry (DSC), thermogravimetric analysis (TGA), dynamic mechanical thermal analysis (DMTA) and thermal mechanical analysis (TMA) for the characterization of nanocomposite materials.

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Oligomeric and polymeric modifiers for toughening of epoxy resins

Frigione

Mascia

Acierno

1995

European Polymer Journal

110

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Sustainable polymer-based Phase Change Materials for energy efficiency in buildings and their application in aerial lime mortars

Frigione

Lettieri

Sarcinella

et al. 2020

Construction and Building Materials

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An innovative, fast and facile soft-template approach for the fabrication of porous PDMS for oil–water separation

et al. 2017

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Oil wastewater and spilled oil caused serious environmental pollution and damage to public health in the last years. Therefore, considerable efforts are made to develop sorbent materials able to separate oil from water with high selectivity and sorption capacity. However most of them are low reusable, with low volume absorption capacity and poor mechanical properties. Moreover, the synthesis is time-consuming, complex and expensive limiting its practical application in case of emergency. Here we propose an innovative approach for the fabrication of porous PDMS starting from an inverse water-insilicone procedure able to selectively collect oil from water in few seconds. The synthesis is dramatically faster than previous approaches, permitting the fabrication of the material in few minutes independently from the dimension of the sponges. The porous material evidenced a higher volume sorption capacity with respect to other materials already proposed for oil sorption from water and excellent mechanical and reusability properties.This innovative fast and simple approach can be successful in case of emergency, as oil spill accidents, permitting in situ fabrication of porous absorbents..

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Compatibilization Criteria and Procedures for Binary Blends: A Review

Lorenzo¹,

Frigione²

1997

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Polymer blends have been widely studied for the property improvement of commercial polymers. Most polymer blends, however, present coarse and unstable phase morphologies and poor adhesion at the interface, which is due to their immiscibility. Such problems have often been overcome with the addition of a proper compatibilizer that is able to modify the interfacial condition. In this way, it is possible to control the morphology of the material and the interphase adhesion in an appropriate manner to achieve an effective stress transfer within the blend. Compatibilization criteria and procedures, either by adding a third component ("compatibilizer") or by inducing in situ chemical reactions between blend components, are reviewed. Some theoretical aspects of compatibilization processes have also been considered, giving examples of experimental consistency. The authors also report on the different compatibilizers used for several pairs of immiscible polymers with indications of their action to promote homogenization between phases.

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Water effects on the bond strength of concrete/concrete adhesive joints

Frigione

Aiello

Naddeo

2006

Construction and Building Materials

117

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Durability Issues and Challenges for Material Advancements in FRP Employed in the Construction Industry

Frigione

Lettieri

2018

Polymers

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The use of fiber reinforced polymer (FRP) composites for the rehabilitation of buildings or other infrastructure is increasingly becoming an effective and popular solution, being able to overcome some of the drawbacks experienced with traditional interventions and/or traditional materials. The knowledge of long-term performance and of durability behavior of FRP, in terms of their degradation/aging causes and mechanisms taking place in common as well as in harsh environmental conditions, still represents a critical issue for a safe and advantageous implementation of such advanced materials. The research of new and better performing materials in such fields is somewhat limited by practical and economical constrains and, as a matter of fact, is confined to an academic argument.

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