510 research outputs found
Carbon Fiber as Anode Material for Cathodic Prevention in Cementitious Materials
Cathodic prevention (CPre) technique is a promising method and has been used for the past two decades to prevent steel from corrosion in concrete structures. However, wide application of this technique has been restricted due to high costs of anode materials. In order to lower the cost and further improve this technique, carbon fiber composite anode has been introduced as an alternative anode material with affordable price and other outstanding properties. This paper presents the study of using carbon fiber mesh as anode material for long-term cathodic prevention system and the effect of accelerated current on macro- and microstructure of cementitious materials. In the study, electrochemically accelerated tests were developed for the purpose of shortening the experimental time into a manageable range. An estimation tool was used to predict the service life as well. Chemical and microstructure analyses were carried out by laser-ablation inductively-coupled-plasma mass-spectroscopy (LA-ICP-MS) and scanning electron microscope (SEM). Results indicate that calcium to silicon (Ca/Si) ratio and ion re-distribution in the current-affected zone around the anode were changed due to migration and electrochemical reactions. The predicted service life was in general longer than 100 years. Based on the results from this work, it can be concluded that carbon fiber mesh is suitable for the application as anode in long-term cathodic prevention system in cementitious materials
Comparison of climate signals obtained from encrusting and free-living rhodolith coralline algae
Highlights
• Comparison of encrusting and rhodolith coralline algae for paleoclimate reconstruction
• Both coralline algal forms can yield SST information, but encrusting forms generally yield higher correlations to SST.
• Encrusting morphologies yielded longer records due to frequent growth irregularities in rhodoliths.
Abstract
Coralline algae have been used for sclerochronological studies throughout the last decade. These studies have focused on two different growth morphologies of the photosynthetic coralline algae: massive crusts forming small buildups on hard substrate, and free-living branching algal nodules, known as rhodoliths. The latter are generally found on soft-substrate, where they are frequently overturned by water movement and bottom feeding organisms, leaving one side of the rhodolith partially buried in the sediment at any given time. Here we test whether either of these growth morphologies is more suitable for proxy reconstructions by comparing Mg/Ca ratios – a temperature proxy – in multiple replicates of rhodoliths of Lithothamnion glaciale and in rhodoliths as well as encrusting specimens of Clathromorphum compactum. With both species being widespread throughout the Temperate and Arctic regions, we have chosen two North Atlantic localities at Nuuk Fjord, Greenland (Subarctic), and off the southeastern coast of Newfoundland, Canada (Temperate), for this study. Two to three Mg/Ca ratio transects spanning 18 years of growth were analysed on multiple specimens with encrusting morphologies and along different sides of rhodoliths using laser ablation inductively coupled mass spectrometry and compared to remotely sensed sea surface temperature (SST) data. The length of the common time span used for comparison was limited by growth interruptions in rhodoliths. Furthermore, our comparison is based on the assumption that rhodolith growth increments are annual – an assumption that has recently been challenged by mesocosm studies. Monthly Mg/Ca values from multiple transects within each individual were compared and in samples from Nuuk fjord significant correlations were found in 4 of 4 encrusting C. compactum, 4 of 4 C. compactum rhodoliths, and 2 of 3 L. glaciale rhodoliths. In Newfoundland significant correlations were found in 6 of 6 encrusting C. compactum comparisons (average: r = 0.61, p < 0.001), and in 6 of 6 L. glaciale rhodolith comparisons (average: r = 0.43, p < 0.001) for monthly resolved time series. The monthly Mg/Ca ratios (n = 216) from each morphology were compared with instrumental Reynolds SST yielding the following correlations: encrusting C. compactum (r = 0.64, p < 0.001), C. compactum rhodolith (r = 0.62, p < 0.001) and L. glaciale (r = 0.58, p < 0.001). In Newfoundland both morphologies indicate a similar strength in recording SST: encrusting C. compactum (r = 0.85, p < 0.001) and rhodolith-forming L. glaciale (r = 0.84, p < 0.001). In summary, Mg/Ca ratios derived from both coralline algal growth forms can yield SST information, however, massive encrusting forms generally yield higher correlations to SST than transects measured on individual rhodoliths, which only allowed for the generation of short uninterrupted time series due to frequent growth irregularities
An Investigation Of Organizational Information Security Risk Analysis
Despite a growing number and variety of information security threats, many organizations continue to neglect implementing information security policies and procedures. The likelihood that an organization’s information systems can fall victim to these threats is known as information systems risk (Straub & Welke, 1998). To combat these threats, an organization must undergo a rigorous process of self-analysis. To better understand the current state of this information security risk analysis (ISRA) process, this study deployed a questionnaire using both open-ended and closed ended questions administered to a group of information security professionals (N=32). The qualitative and quantitative results of this study show that organizations are beginning to conduct regularly scheduled ISRA processes. However, the results also show that organizations still have room for improvement to create idyllic ISRA processes. 
The Grizzly, May 9, 2019
Kingston Out, Varner in for Bear Bash • Ursinus Reacts to Symbol of Hatred • Q&A with President Blomberg • Ursinus Graduates First Wave of Education Studies Majors • Breakaway Student Productions\u27 One Act Festival Premieres Four Student-Written Plays • Ursinus Fulbright Scholar, Jason Bennett \u2719, to Research Theoretical High-Energy Physics at the University of Groningen in the Netherlands • Opinions: Swarthmore Scandal Speaks to Greater Issues with Fraternity Culture; The United States Should Shorten its Work Week • Athlete Spotlight: Running Back Sam Ragland \u2721 • The Thanks for a Fun Two Years Award: You, the Fans • Bears Win Conference Championshiphttps://digitalcommons.ursinus.edu/grizzlynews/1622/thumbnail.jp
Discrimination of TiO2 polymorphs in sedimentary and metamorphic rocks
Investigation by Raman spectroscopy of samples from different geological settings shows that the occurrence of TiO2 polymorphs other than rutile can hardly be predicted, and furthermore, the occurrence of anatase is more widespread than previously thought. Metamorphic pressure and temperature, together with whole rock chemistry, control the occurrence of anatase, whereas variation of mineral assemblage characteristics and/or fluid occurrence or composition takes influence on anatase trace element characteristics and re-equilibration of relict rutiles. Evaluation of trace element contents obtained by electron microprobe in anatase, brookite, and rutile shows that these vary significantly between the three TiO2 phases. Therefore, on the one hand, an appropriation to source rock type according to Nb and Cr contents, but as well application of thermometry on the basis of Zr contents, would lead to erroneous results if no phase specification is done beforehand. For the elements Cr, V, Fe, and Nb, variation between the polymorphs is systematic and can be used for discrimination on the basis of a linear discriminant analysis. Using phase group means and coefficients of linear discriminants obtained from a compilation of analyses from samples with well-defined phase information together with prior probabilities of groupings from a natural sample compilation, one is able to calculate phase grouping probabilities of any TiO2 analysis containing at least the critical elements Cr, V, Fe, and Nb. An application of this calculation shows that for the appropriation to the phase rutile, a correct-classification rate of 99.5% is obtained. Hence, phase specification by trace elements proves to be a valuable tool besides Raman spectroscopy.Postprint (published version
Constraints on UED from W' searches
We obtain contraints on three Universal Extra Dimensional models utilizing
limits from the CMS Collaboration on W' production and decay into a
single-top-quark final state. We find a weak constraint on the Minimal
Universal Extra Dimensions model due to small Kaluza-Klein number violating
terms. In contrast, the W' search puts a strong limit on the size of the Dirac
mass term of the quarks in Split Universal Extra Dimension models. In
Non-minimal Universal Extra Dimension models the W' search constrains the
splitting between the boundary localized kinetic terms of the gauge bosons and
the quarks. Each of these bounds can be translated into constraints on the mass
splitting between the Kaluza-Klein excitations of the SU(2) charged quarks and
the Klauza-Klein excitations of the W boson.Comment: 7 pages, 5 figures; Updated Draft and Figure
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