A proposed psychological assessment protocol for applicants to religious life in the Roman Catholic Church

This paper proposes a psychological assessment protocol for applicants to religious life in the Roman Catholic church. While most Catholic religious orders, seminaries, and dioceses require applicants to complete some type of psychological evaluation prior to entrance into seminary, there is no established standard or protocol suggested for conducting these evaluations. The current proposed assessment protocol provides those conducting or receiving these evaluations with a comprehensive foundation from which they can add or delete components to meet their specific needs. Furthermore, the utilization of a standard clergy assessment protocol creates the opportunity for the establishment of a national database useful for conducting research concerning clergy applicants

Personality expectations and perceptions of Roman Catholic clergy members

This study examined the expectations of Roman Catholic priests\u27 personality characteristics. Personality measures (i.e., Symptom Check List-90-Revised, Weinberger Adjustment Inventory, Belief in Personal Control Scale, and several authordesigned measures) were administered to 102 undergraduate students. The subjects\u27 perceptions of Roman Catholic priests\u27 personality traits were examined by having the subjects complete the Personality Adjective Checklist (PACL) describing a typical Roman Catholic priest. These scores were compared to PACL scores from 12 successful applicants to the priesthood. Findings suggest that subjects tend to view Roman Catholic priests stereotypically as authority figures and that Catholic subjects view priests more positively than do non-Catholic subjects

Recent advances on spinel-based protective coatings for solid oxide cell metallic interconnects produced by electrophoretic deposition

The application of ceramic protective coatings to the metallic interconnects in solid oxide cells (SOCs) is a viable and effective method to limit interconnect degradation issues. This featured letter provides a critical overview of the main outcomes of current research on the use of the electrophoretic deposition (EPD) technique to produce protective coatings for SOC metallic interconnects, specifically focusing on different approaches to stabilise spinel-based suspensions, as well as the possible sintering procedures. The protective properties of EPD coatings are reviewed and discussed in terms of oxidation kinetics and area specific resistance evaluation

Electrophoretic co-deposition of Mn1.5Co1.5O4, Fe2O3 and CuO: Unravelling the effect of simultaneous addition of Cu and Fe on the microstructural, thermo-mechanical and corrosion properties of in-situ modified spinel coatings for solid oxide cell interconnects

A systematic microstructural, thermo-mechanical and electrical characterization of simultaneous Fe–Cu doped Mn–Co spinel coatings processed by electrophoretic co-deposition on Crofer 22 APU is here reported and discussed. An innovative approach for the simultaneous electrophoretic deposition of three spinel precursors is designed, conceived and optimised, with the aim of outlining time- and energy-saving spinel modification routes. The effect of different levels of Cu and Fe co-doping is observed on the stability of the modified Mn–Co spinel phase, the coefficient of thermal expansion (CTE), the corrosion resistance and on the densification behaviour of the obtained coatings. Cu determines an increase of CTE, while Fe has the opposite behavior. The synergic effect of the simultaneous Fe and Cu co-doping results in an improved densification and the stabilization of the MnCo2O4 cubic phase. The most interesting results in terms of corrosion resistance are obtained for the Mn1.28Co1.28Fe0.15Cu0.29O4 spinel

Magnetic Glass Ceramics by Sintering of Borosilicate Glass and Inorganic Waste

Ceramics and glass ceramics based on industrial waste have been widely recognized as competitive products for building applications; however, there is a great potential for such materials with novel functionalities. In this paper, we discuss the development of magnetic sintered glass ceramics based on two iron-rich slags, coming from non-ferrous metallurgy and recycled borosilicate glass. The substantial viscous flow of the glass led to dense products for rapid treatments at relatively low temperatures (900–1000 °C), whereas glass/slag interactions resulted in the formation of magnetite crystals, providing ferrimagnetism. Such behavior could be exploited for applying the obtained glass ceramics as induction heating plates, according to preliminary tests (showing the rapid heating of selected samples, even above 200 °C). The chemical durability and safety of the obtained glass ceramics were assessed by both leaching tests and cytotoxicity tests

Electrophoretic Deposition of Ceramic Coatings for Solid Oxide Cells: Challenges and Perspectives

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Chitosan membranes containing micro or nano-size bioactive glass particles : evolution of biomineralization followed by in-situ dynamic mechanical analysis

A newfamilyofbiodegradablepolymer/bioactiveglass(BG)compositematerialshas emergedbasedontheavailabilityofnano-sizedbioactiveparticles.Suchnovelbiocompo- sites canhaveenhancedperformance,intermsofmechanicalpropertiesandbioactivity, and theycanbedesignedtobeusedinboneregenerationapproaches. In thiswork,membranesofchitosan(CTS)andchitosanwithbioactiveglass(BG)both micron andnanosizedparticles(CTS/mBG,CTS/nBG,respectively)werepreparedby solvent casting.Microstructuralandmechanicalpropertieswereevaluatedinorderto compare theeffectsoftheincorporationofmicro(mBG) andnano(nBG)particlesinthe chitosan matrix. In vitro bioactivity testswereperformedtocharacterizetheapatitelayer that isformedonthesurfaceofthematerialafterbeingimmersedinsimulatedbodyfluid (SBF). Thebiomineralizationprocessonthebiomaterialswasalsofollowedusingnon- conventionaldynamicmechanicalanalysis(DMA),bothonlineandoffline.InsuchDMA experiments,thechangeinthestoragemodulus, E0, andthelossfactor,tan d, were measured asafunctionoftheimmersiontimeinSBF.TheresultsdemonstratedthatCTS/ nBG membranespossessenhancedmechanicalpropertiesandhigherbioactivityin comparisonwiththeCTS/mBG membranes.SuchresultssuggestthepotentialofnBGfor the developmentofbioactivecompositesforboneregenerationapplications.This work was financially supported by Foundation for Science and Technology (FCT) by the projects PTDC/QUI/69263/2006, PTDC/CTM-BPC/112774/2009 and, through the scholarship SFRH/BD/64601/2009 granted to Sofia G. Caridade. The authors acknowledge Dr D. Mohn and Prof. W. Stark (Em Zurich) for providing the nBG particles used