Elisabete Maria Saraiva Sanchez

Unsaturated polyester resins: influence of the styrene concentration on the miscibility and mechanical properties

Styrene is frequently used as comonomer for unsaturated polyester (UP) resins. Variations in the styrene content in the polyester affect the resulting properties. Dynamic mechanical tests show the phase separation in the cured resin with an increase of styrene concentration. The dependence of the glass transition temperature of the UP resin on the styrene content is complex and reflects a balance of elastic forces of the network and the immiscibility of polystyrene and UP. The thermal stability and the mechanical properties are governed by the phase behaviour of the mixture and therefore can be controlled by the styrene content.

Biocompatibility and biodegradation of polycaprolactone‐sebacic acid blended gels

Tissue engineering aims at creating biological body parts as an alternative for transplanting tissues and organs. A current new approach for such materials consists in injectable biodegradable polymers. Their major advantages are the ability to fill-in defects, easy incorporation of therapeutic agents or cells, and the possibility of minimal invasive surgical procedures. Polycaprolactone (PCL) is a promising biodegradable and elastic biomaterial, with the drawback of low-degradation kinetics in vivo. In this work a biodegradable injectable gel of PCL blended with sebacic acid (SA) was prepared, to improve the degradation rate of the biomaterial. SA is known for its high degradation rate, although in high concentrations it could originate a pH decrease and thus disturb the biocompatibility of PCL. Degradation tests on phosphate buffered saline were carried out using 5% of SA on the blend and the biomaterial stability was evaluated after degradation using differential scanning calorimetry, dynamical mechanical analysis, and scanning electronic microscopy. After degradation the elastic properties of the blend decreased and the material became more crystalline and stiffer, although at a lower extent when compared with pure PCL. The blend also degraded faster with a loss of the crystalline phase on the beginning (30 days), although its thermal and mechanical properties remained comparable with those of the pure material, thus showing that it achieved the intended objectives. After cell assays the PCL-SA gel was shown to be cytocompatible and capable of maintaining high cell viability (over 90%).

Compósito de resina de poliéster insaturado com bagaço de cana-de-açúcar: influência do tratamento das fibras nas propriedades

The aim of this work is to evaluate the influence of the sugar cane bagasse NaOH treatment in the mechanical and dynamic-mechanical properties, in the thermal stability, density and water absorption, when used in unsaturated polyester resin/sugar cane bagasse composite. The sugar cane bagasse was submitted to the chemical treatment with alkaline solution of NaOH. The treatment improves the impact and flexural elasticity modulus when compared with resin without fibers, in addition to the adhesion of the fibers with the matrices, but does not improve significantly the tensile elasticity modulus. The surfaces of the impact fracture were analyzed by SEM.

Avaliação da degradação térmica e fotooxidativa do ABS Automotivo

The ABS degradation was investigated after thermal- (80°C) and photo-oxidative ageing (ASTM G53 and G24). These conditions were selected to simulate a car interior and the ABS lifetime weatherability. ABS changes were characterised by mechanical properties, melt flow index, carbonyl index (FT-IR), yellowing index and macro-photography of impact fracture. The results showed that each technique gives a characteristically answer for the ageing method. The multivariate analysis provided the degradation view as a function of the ageing method.

Avaliação da degradação térmica e fotooxidativa do ABS para fins de reciclagem

The aim of this work is the evaluation of thermal and photo-oxidative degradation of the terpolymer acrylonitrile-butadiene-styrene, ABS, used in internal automotive components. Injection molded specimens were aged by ASTM D794, ASTM G24 and ASTM G53 standards. The aged test specimens were studied by means of dynamic mechanical analysis and non-contact atomic force microscopy. The results revealed that the transitions of the glass and rubber phases were affected by the degradation. The area under linear loss modulus-temperature curves was related to tensile properties in function of the aging time and standard test method. The degradation of the matrix had a higher influence on the mechanical properties. Both, PB and SAN phases, were more affected when the ASTM G24 standard test method was used. Microscopy images showed that the different ageing methods cause different changes on the surface roughess. The results showed that an ABS that had lost 50 % of rupture elongation has this property almost regenerated (90 %) after being reprocessed.

Biocompatibility and Osteo-Differentiation Study of Poly(ε-Caprolactone) and β-Tricalcium Phosphate Composite Membranes

The Tissue Engineering appears with a modern proposal for the treatment of damages or diseases. The study of materials and methods for tissues and organs regeneration by the patient cells culture had been developed on the last years but still couldn’t be used for all different tissues. In this multidisciplinary research field, the present work joins the biodegradability of poly(ε-caprolactone) (PCL) with the osteoconductive properties of β-tricalcium phosphate (β-TCP) in order to create a composite which acts as a temporary support for cell culture without a second surgery to remove the biomaterial. This work evaluates three membranes types, obtained by casting in chloroform, on the biocompatibility and differentiation on mesenquimal stem cells (hMSC). These analyses showed cell viability with the rezasurin method and the alkaline phosphatase activity (ALP). DMA analyses, MEV and OPM were performed.