Acompanhamento da construção e remodelação da estação fluvial do Terreiro do Paço

O trabalho que se segue reporta as actividades resultantes da experiência em obra ao serviço da firma Interpaço A.C.E., durante um período de quatro meses. A esta empresa foi adjudicada a seguinte empreitada: “Execução dos Toscos, Acabamentos, Baixa Tensão, Telecomunicações e AVAC do Novo Terminal Fluvial, No Interface do Terreiro do Paço sito em Lisboa”. O objectivo principal foi o de adquirir conhecimentos nas várias áreas de execução de uma obra desta natureza: Área de Projecto, Produção, Preparação, Técnico/Comercial e Orçamentação. Adquiriram-se igualmente conhecimentos na área de gestão de consórcios e das subempreitadas, como seja a interacção e coordenação entre os diversos departamentos e organismos que integram o mesmo. O estágio consistiu principalmente no acompanhamento do Director de Obra nos vários processos de construção, na verificação da conformidade da execução destes processos, de acordo com planeamento efectuado, na verificação do registo de recepção dos diversos materiais, no contacto com os diversos intervenientes no processo construtivo e na elaboração de detalhes construtivos. Foram obtidas diversas competências nas seguintes áreas: Projecto, onde se ganharam noções básicas da leitura e interpretação deste, complementando-o com as informações fornecidas pelo caderno de encargos e memória descritiva; Encomenda e Recepção de Materiais, onde se adquiriu um conhecimento relevante do mercado disponível, tendo em conta igualmente futuros empreendimentos; Elaboração de Autos, onde se compreenderam as relações entre a Empresa Construtora, Subempreiteiros e Dono de Obra; Trabalhos de Preparação, onde se percebeu a importância de planear com antecedência todos os passos da execução dos trabalhos.

The effect of metal transfer stability (spattering) on fume generation, morphology and composition in short-circuit MAG welding

The main objective of this work was to evaluate the hypothesis that the greater transfer stability leads also to less volume of fumes. Using an Ar + 25%CO2 blend as shielding gas and maintaining constant the average current, wire feed speed and welding speed, bead-on-plate welds were carried out with plain carbon steel solid wire. The welding voltage was scanned to progressively vary the transfer stability. Using two conditions of low stability and one with high stability, fume generation was evaluated by means of the AWS F1.2:2006 standard. The influence of these conditions on fume morphology and composition was also verified. A condition with greater transfer stability does not generate less fume quantity, despite the fact that this condition produces fewer spatters. Other factors such as short-circuit current, arcing time, droplet diameters and arc length are the likely governing factors, but in an interrelated way. Metal transfer stability does not influence either the composition or the size/morphology of fume particulates. (c) 2014 Elsevier B.V. All rights reserved.

Surface morphology and phase transformations of femtosecond laser-processed saphire

The morphological and structural modifications induced in sapphire by surface treatment with femtosecond laser radiation were studied. Single-crystal sapphire wafers cut parallel to the (0 1 2) planes were treated with 560 fs, 1030 nm wavelength laser radiation using wide ranges of pulse energy and repetition rate. Self-ordered periodic structures with an average spatial periodicity of similar to 300 nm were observed for fluences slightly higher than the ablation threshold. For higher fluences the interaction was more disruptive and extensive fracture, exfoliation, and ejection of ablation debris occurred. Four types of particles were found in the ablation debris: (a) spherical nanoparticles about 50 nm in diameter; (b) composite particles between 150 and 400 nm in size; (c) rounded resolidified particles about 100-500 nm in size; and (d) angular particles presenting a lamellar structure and deformation twins. The study of those particles by selected area electron diffraction showed that the spherical nanoparticles and the composite particles are amorphous, while the resolidified droplets and the angular particles, present a crystalline a-alumina structure, the same of the original material. Taking into consideration the existing ablation theories, it is proposed that the spherical nanoparticles are directly emitted from the surface in the ablation plume, while resolidified droplets are emitted as a result of the ablation process, in the liquid phase, in the low intensity regime, and by exfoliation, in the high intensity regime. Nanoparticle clusters are formed by nanoparticle coalescence in the cooling ablation plume. (C) 2013 Elsevier B.V. All rights reserved.