Browse Articles

The paper is a study regarding the obtaining of TiO2 nanostructured by the sol-gel reaction of tetraisopropoxytitanate in the presence of two templants, CTAB and DA. We are also interested in the effect of PTC on the capacity of nanostructuring. In the presence of CTAB nanostructured hibrids with interlamellar distance of 25,6Å were obtained, only in the absence of PTC. Nanostructured hibrids have been obtained in the case of DA addition, only in the presence of PTC with interlamellar distance of 32,7Å. For the nanostructured samples, the temperature with maximum decomposition speed of CATB and DA is the higest due to strong interaction between templants - TiO2. The SEM images put in evidence that the hibrids obtained in the presence of the templants are formed of submicronic units obtained during the sol-gel process. TiO2 prepared in the presence of CTAB catalizes the photo degradation of rodamine B (RB) in water. The samples obtained without CTAB followed by nanostructured hibrids present the most intense activity. The IR spectres evidenced that during irradiation, CTAB diffuses in water and stabilizes by micelles formed and RB becomes more stable at photodegradation. Keywords: templants, CTAB, TiO2, PTC, RB

The paper presents, some experimental results obtained with different types and amounts of reinforcement in composite materials based on polypropylene matrix for automotive applications. There where characterized fourteen experimental samples. The reinforcing agents utilized were: particulate reinforcement (organic and biodegradable – powder wood and inorganic and non-biodegradable – talc powder) and fibrous reinforcement (organic biodegradable-short flax fibers). Keywords: composite, polypropylene, flax fibers

The development of new polymeric materials –either synthetic or biologic- for the surgical repair of abdominal wall primary or incisional defects (one of the most frequent surgical procedures performed in a clinic of general surgery) dates back from the 1950s; inspiration for developing new materials came from several sources, such as the evolution of the surgical techniques, the emergence of laparoscopy and the technologic revolution of the past years. The history of the meshes began with Usher’s polypropylene mesh; curently used meshes basically contain polypropylene, polyester and ePTFE, used per se or in different combinations (composite meshes) with various additional materials (omega 3, titan, monocryl, PVDF, hyaluronate). The most important features of the meshes used in the surgical process are: the type of material used, its porosity and its resistance, elements which determine its weight and ability to integrate into the recipient body. The use of meshes allows the repair of many types of abdominal wall defects of various dimensions and the substitution of the areas with lack of substance, as the prostheses stimulate the collagen synthesis. The present article envisages the review of the meshes which have been used more often in our clinic during the past year, and also their features and indications. Keywords: substitution materials, abdominal wall defects, types of prostheses

Poly(ethylene terephtalate) (PET), recycled from post-consumer bottles was depolymerized by glycolysis process using diethylene glycol (DEG) in the presence of zinc acetate catalyst. The glycolized products were mainly represented by monomer and dimer units. After a relatively long reaction time (over 2 h), an equilibrium was achieved between the two species. Considering the importance of the next steps, in attaining unsaturated polyesters with excellent mechanical properties, this study was concentrated on the identification and characterization of glycolysis reaction equilibrium phase. The evolution of the depolymerization reaction was investigated by the viscosity procedure, which was compared and found to be in good agreement with the functional analysis method. Keywords: PET waste, glycolysis, oligomers, viscosity, equilibrium phase

The aim of the present paper was to highlight the interaction between two composite resins available for dental restorations with artificial saliva in connection with the material properties. The study was focused on specific tribological aspects concerning wear, microhardness of composite material surfaces, friction and lubricant film. The two types of tested materials were composite resins: CERAM-X and FILTEK SUPREME. The experimental researches were based on important laboratory equipment such as microhardness device, metallographic microscope and spectrophotometer. Keywords: composite resins, tribology, wear, microhardness, dental medicine

Plastination as a means of preserving human biological tissues indefinitely, involves the use of reagents and polymers (S10, E12 and P40 ), with physical methods as vacuum, cold temperatures and photo polymerization. Invented over 30 years ago by the German pathologist Gunther von Hagens, plastination methods can be used successfully in over six areas of medicine and other specialties such as archeology or anthropology. The used of plastination of the oral tissues is directed towards the teaching and scientific research that implies microscopy and optical coherence tomography. Keywords: plastination, polymers, oral tissue, biotechnology, preservation

Our objective was to compare 2 friction couples: ceramic/ceramic and metal/polyethylene in total hip prosthesis. Between 2005-2007, 64 patients with primary osteoarthritis of the hip were enrolled in a prospective study: 32 cases underwent arthroplasty with uncemented total hip prosthesis with a friction couple ceramic/ceramic (Group1), while the other 32 cases underwent arthroplasty with uncemented total hip prostheses with a friction couple of metal on Ultra-High Molecular Weight Polyethylene (UHMWPE) (Group 2). Group 1 was considered the test group and group 2 was designed so that the two groups to be similar in terms of gender and age distribution. We followed: the emergence of osteolysis areas, component loosening to a degree requiring revision, clinical outcome quantified by Harris score. The radiological aspect was determined by several radiological check-ups: immediately after operation, at 6 weeks, at 3 months postoperatively and then annually. Mean follow-up time was 5.2 years (ranging from 3 years and 2 months to 7 years and 8 months). The presence of osteolysis areas was observed in a single case in the ceramic/ceramic group (3.12%) and in 4 cases in the metal/polyethylene group (12.5%), the difference not being statistically significant (p > 0.05). In Group 1 we performed one revision which required replacement of both components (3.12%), while in Group 2 there were 2 such kind of interventions (6.24%) - the difference being not statistically significant (p > 0.05). Harris Score evolved in Group 1 from 52.34 ±6.36 preoperatively to 94.32 ±8.82 at the end of the follow-up period (p < 0.01), and in Group 2 from 51.52 ±7.21 to 92.44 ±9.24, respectively (p < 0.01). Keywords: ceramic, friction couple, hip prosthesis

A non invasive method as numerical simulation was employed to evaluate the periodontium comportment under the occlusal force appliances. Three types of periodontal support for a three elements metal polymeric fixed partial prosthesis were considered. The retractions trends of the periodontium were correlated with the occlusal conditions. Keywords: metal - polymeric fixed partial prosthesis, numerical simulation, periodontium

The compression properties of a novel family of hydrogels prepared from diepoxy-terminated poly(ethylene glycol)s of approximate molecular weights 600, 1000, 2000 and 4000 Daltons and various aliphatic polyamines of different chain length and functionality (ethylenediamine, 1,4-diaminobutane, hexamethylenediamine, 1,8-octanediamine, diethylenetriamine, triethylenetetramine, tris(2-aminoethyl)amine) were determined by uniaxial compression. It was shown that both elastic and compression moduli, and compression strength of the fully swelled hydrogels depended on the molecular weight of the PEG oligomer, structure and functionality of the aliphatic amine employed as crosslinker, and mole ratio between the reacting groups, as a consequence of the different crosslinking degree of the resulting networks. Keywords: hydrogels; poly(ethylene glycol), epoxy groups, aliphatic polyamines, uniaxial compression

A molecular rheological model for amorphous homopolymers filled with nanoparticles is presented. The fillers are non-agglomerated and interact energetically with the polymers. The model applies to situations in which the polymer-filler affinity is relatively weak. The essential physics represented in the model includes chain reptation, the slowing down of diffusion due to energetic interactions of polymers and fillers, chain stretch, and contour length fluctuations. The model is based on insight obtained from extensive simulations of the structure and dynamics of these systems. The chain population is composed of free, dangling and bridging chains, i.e. those that at given time do not contact fillers, contact one filler or multiple fillers, respectively. As the system evolves, a representative chain switches randomly between these categories. The representative chain reptates only when free, while contour length fluctuations are performed at all times. Relaxation is controlled by both tube renewal and the process of chain attachment/detachment to/from the filler surface. The second process modulates the first, leading to a relaxation with two characteristic times, in agreement with experimental observations. The parameters entering the model can be calibrated based on the rheology of the neat polymer and based on results from simulations of the respective filled system. Keywords: rheology of polymer nano-composites; reptation; contour length fluctuation; tube renewal