Numerical modelling of braided fibres for reinforced concrete

Fire has been always a major concern for designers of steel and concrete structures. Designing fire-resistant structural elements is not an easy task due to several limitations such as the lack of fire-resistant construction materials. Concrete reinforcement cover and external insulation are the most commonly adopted systems to protect concrete and steel from overheating, while spalling of concrete is minimised by using HPFRC instead of standard concrete. Although these methodologies work very well for low rise concrete structures, this is not the case for high-rise and inaccessible buildings where fire loading is much longer. Fire can permanently damage structures that cost a lot of money. This is unsafe and can lead to loss of life. In this research, the author proposes a new type of main reinforcement for concrete structures which can provide better fire-resistance than steel or FRP re-bars. This consists of continuous braided fibre rope, generally made from fire-resistant materials such as carbon or glass fibre. These fibres have excellent tensile strengths, sometimes in excess of ten times greater than steel. In addition to fire-resistance, these ropes can produce lighter and corrosive resistant structures. Avoiding the use of expensive resin binders, fibres are easily bound together using braiding techniques, ensuring that tensile stress is evenly distributed throughout the reinforcement. In order to consider braided ropes as a form of reinforcement it is first necessary to establish the mechanical performance at room temperature and investigate the pull-out resistance for both unribbed and ribbed ropes. Ribbing of ropes was achieved by braiding the rope over a series of glass beads. Adhesion between the rope and concrete was drastically improved due to ribbing, and further improved by pre-stressing ropes and reducing the slacked fibres. Two types of material have been considered for the ropes: carbon and aramid. An implicit finite element approach is proposed to model braided fibres using Total Lagrangian formulation, based on the theory of small strains and large rotations. Modelling tows and strands as elastic transversely isotropic materials was a good assumption when stiff and brittle fibres such as carbon and glass fibres are considered. The rope-to-concrete and strand-to-strand bond interaction/adhesion was numerically simulated using newly proposed hierarchical higher order interface elements. Elastic and linear damage cohesive models were used effectively to simulate non-penetrative 'free' sliding interaction between strands, and the adhesion between ropes and concrete respectively. Numerical simulation showed similar de-bonding features when compared with experimental pull-out results of braided ribbed rope reinforced concrete.

Diagnostico estratégico del suministro de hemocomponentes en Colombia y posibles alternativas de mejora

Objetivo: realizar un diagnóstico respecto a la oferta demanda de hemocomponentes, en el contexto epidemiológico colombiano para que sirva de base en la formulación de futuros modelos logísticos de cadena de suministro que permita responder eficientemente a las necesidades transfusionales del país Método: se realizó un estudio descriptivo retrospectivo basado en las fuentes oficiales de información colombiana respecto a condiciones epidemiológicas poblacionales y su relación respecto a captación y transfusión de sangre, así como las posibilidades de conexiones aéreas. Resultados: actualmente 62.3% de la captación es aportada principalmente por 19% de los bancos de sangre del país (16 / 82), ubicados en 8 ciudades del país las cuales evidencian mejores condiciones de salud e índices de densidad poblacional superiores al promedio nacional. Adicionalmente, desde estas ciudades se puede hacer cubrimiento de hemocomponentes en todo el territorio nacional dadas las condiciones de las conexiones aéreas. Conclusiones: es posible con base en el diagnostico presentado, plantear opciones que apunten a mejorar la eficiencia en la cadena de suministros de hemocomponentes, centralizando la captación de sangre en las áreas donde se cuenta con mejores condiciones de salud y mayores densidades poblacionales. Lo anterior permitiría minimizar los porcentajes de incineración de unidades de glóbulos rojos por vencimiento al mejorar las redes de distribución y de esta manera reducir costos de operación. Debe además fortalecerse la gestión de inventarios desde los servicios de transfusión para lograr minimizar las perdidas. Lo anterior requiere control gubernamental dado que al considerarse la sangre como un bien de interés público, su uso no puede ser indiscriminado.

Método LNEC para avaliação e classificação da qualidade acústica de edifícios habitacionais: ferramenta de estimação de custos médios de transição entre classes acústicas

O conforto acústico na habitação é essencial para permitir um repouso tranquilo e regenerativo. Este conforto é obtido principalmente pela redução do ruído e aumento do isolamento sonoro dos elementos de compartimentação. Para a qualificação deste conforto é necessário efetuar uma análise global do edifício, onde são considerados os fatores internos e externos à habitação, ou seja, considerando a acústica da envolvente (Vizinhança), do edifício (Edifício) e da fração (Habitação). Para este efeito foi produzido o “Método LNEC para avaliação e classificação da qualidade acústica de edifícios habitacionais”, o qual permite fazer uma avaliação global do conforto acústico na habitação. Este método inovador em Portugal origina uma Classe Acústica LNEC que permite representar com razoável fiabilidade o conforto acústico realmente sentido e a qualidade acústica da habitação. Este método pode ser aplicado a edifícios novos e a edifícios a reabilitar. De modo a permitir uma estimação dos custos médios necessários para transitar entre determinadas classes (e alcançar respetivo conforto acústico) é necessário possuir uma ferramenta de cálculo apropriada. Deste modo apresenta-se nesta comunicação uma ferramenta para estimar os custos de transição entre classes acústicas. Esta metodologia permite fazer escolhas mais fundamentadas nos processos de obtenção de determinado conforto acústico. Abstract The acoustic comfort in dwellings is essential to a peaceful and regenerative sleep. The achievement of this comfort is primarily obtained by reducing noise and increasing sound insulation of separating elements. To classify this comfort is necessary to conduct a comprehensive analysis of the habitation. This global analysis assesses the internal and external factors of the habitation, evaluating the acoustics of the environment (Vicinity), of the building (Building) and of the dwelling place (Lodging). Recently in Portugal was developed the “LNEC method for evaluation and acoustic quality classification of residential buildings” that allows an overall evaluation of the acoustic comfort in dwellings, resulting also in a “LNEC Acoustic Class” that portrays the real acoustic comfort sensed. Since this method can be applied to evaluate the acoustic comfort of new and of restored buildings, it is necessary a tool that gives an estimation of the needed investment to upgrade to a specific “LNEC Acoustic Class” (and achieve the respective acoustic comfort). In this communication is presented a tool that allows the estimation of that upgrade costs.