Multicentennial resolution proxy records from splicings of MD96-2080 and MD02-2594, Agulhas Bank Splice (ABS)

[1] Planktonic d18O and Mg/Ca-derived sea surface temperature (SST) records from the Agulhas Corridor off South Africa display a progressive increase of SST during glacial periods of the last three climatic cycles. The SST increases of up to 4°C coincide with increased abundance of subtropical planktonic foraminiferal marker species which indicates a progressive warming due to an increased influence of subtropical waters at the core sites. Mg/Ca-derived SST maximizes during glacial maxima and glacial Terminations to values about 2.5°C above full-interglacial SST. The paired planktonic d18O and Mg/Ca-derived SST records yield glacial seawater d18O anomalies of up to 0.8 per mill, indicating measurably higher surface salinities during these periods. The SST pattern along our record is markedly different from a UK'37-derived SST record at a nearby core location in the Agulhas Corridor that displays SST maxima only during glacial Terminations. Possible explanations are lateral alkenone advection by the vigorous regional ocean currents or the development of SST contrasts during glacials in association with seasonal changes of Agulhas water transports and lateral shifts of the Agulhas retroflection. The different SST reconstructions derived from UK'37 and Mg/Ca pose a significant challenge to the interpretation of the proxy records and demonstrate that the reconstruction of the Agulhas Current and interocean salt leakage is not as straightforward as previously suggested.

Multi-criteria selection of structural adhesives to bond ABS parts obtained by rapid prototyping

One of the most used methods in rapidprototyping is Fused Deposition Modeling (FDM), which provides components with a reasonable strength in plastic materials such as ABS and has a low environmental impact. However, the FDM process exhibits low levels of surface finishing, difficulty in getting complex and/or small geometries and low consistency in “slim” elements of the parts. Furthermore, “cantilever” elements need large material structures to be supported. The solution of these deficiencies requires a comprehensive review of the three-dimensional part design to enhance advantages and performances of FDM and reduce their constraints. As a key feature of this redesign a novel method of construction by assembling parts with structuraladhesive joints is proposed. These adhesive joints should be designed specifically to fit the plastic substrate and the FDM manufacturing technology. To achieve this, the most suitable structuraladhesiveselection is firstly required. Therefore, the present work analyzes five different families of adhesives (cyanoacrylate, polyurethane, epoxy, acrylic and silicone), and, by means of the application of technical multi-criteria decision analysis based on the analytic hierarchy process (AHP), to select the structuraladhesive that better conjugates mechanical benefits and adaptation to the FDM manufacturing process

Influencia de las condiciones de procesado mediante FDM sobre las propiedades físicas y mecánicas del plástico ABS

El propósito del presente proyecto fue seleccionar la configuración de fabricación de probetas obtenidas mediante el proceso de Modelado por Deposición Fundida (FDM) con el termoplástico acrilonitrilo butadieno estireno (ABS), que optimice las propiedades mecánicas de las probetas y el ahorro de material de apoyo. Se aplicaron técnicas de caracterización física y mecánica y de microscopia electrónica de barrido (SEM). Los resultados indicaron que las probetas verticales presentaron aproximadamente el 6 % de pérdida de material frente cerca de un 40% de las probetas horizontales. La rotura de los cordones se produjo longitudinalmente en el borde de las probetas horizontales mientras que en el borde de las probetas verticales fueron por despegue de los cordones de ABS. La rotura de los cordones en el interior de ambas probetas fue en la dirección de los cordones. ABSTRACT The purpose of this project was to select the manufacture design in test specimens obtained using Fused Deposition Modeling (FDM) with Acrylonitrile Butadiene Styrene (ABS), thus optimizing the mechanical properties of the test specimens and saving the support material. The study was carried out by mean of mechanical and physical characterization techniques as well as Scanning Electron Microscopy (SEM). The results indicated that the horizontal test specimen showed approximately 40% of material loss compared to the vertical test specimen showed a loss 8%. The ABS filament breakage occurred longitudinally on the edge of the horizontal test specimen while the ABS filament breakage was transversely by the separation of the ABS filament on the edge of the vertical tests. The breakage of the filament inside both test specimens was in the direction of the filaments.