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Key Material (key + material)

Distribution by Scientific Domains
Polymers and Materials Science75%

Selected Abstracts

Lanthanum Chromite-Based Interconnects as Key Materials for SOFC Stack Development

INTERNATIONAL JOURNAL OF APPLIED CERAMIC TECHNOLOGY, Issue 1 2004
Natsuko Sakai
The historical investigations on the physicochemical and transport properties of lanthanum chromite-based perovskite oxides are reviewed to evaluate the compatibility as interconnects in solid oxide fuel cells. These materials improve sinterability in air. This has led to investigations on other physicochemical properties of these materials, such as thermal expansion, mechanical strength, and chemical stability. Lanthanum and chromium ion can be substituted by alkaline earths or transition metals, and this translates into a large flexibility in physicochemical properties. However, the formation of oxygen vacancies in a reducing atmosphere can result in an undesirable isothermal expansion or oxygen permeation. The chemical stability of these materials is governed by the fast cation diffusion at the grain boundary of the polycrystals. [source]

Nanocomposite Synthesis: Embryonic States of Fluorapatite,Gelatine Nanocomposites and Their Intrinsic Electric-Field-Driven Morphogenesis: The Missing Link on the Way from Atomistic Simulations to Pattern Formation on the Mesoscale (Adv. Funct.

ADVANCED FUNCTIONAL MATERIALS, Issue 22 2009
Mater.
Fractal aggregates of fluorapatite,gelatine nanocomposites (SEM image taken by Yigit Öztan, MPI CPfS),which bears a strong resemblance to the biosystem hydroxyapatite,collagen, a key material in human bones and teeth,are formed from bundles of calcified protein molecules representing the first (embryonic) states of shape development and leading to extended processes of self-organisation. This process has been studied in detail by P. Simon et al., and is reported on page 3596. [source]

Preparation of a Nanoscale/SOFC-Grade Yttria-Stabilized Zirconia Material: A Quasi-Optimization of the Hydrothermal Coprecipitation Process

INTERNATIONAL JOURNAL OF APPLIED CERAMIC TECHNOLOGY, Issue 6 2008
Yang-Chuang Chang
Yttria-stabilized zirconia (YSZ) is the key material for an electrolyte of a solid oxide fuel cell (SOFC). In order to prepare a nanoscale/SOFC-grade 8YSZ material, the hydrothermal coprecipitation process is intensively investigated for process improvement and product identification. From the characterization results of the 8YSZ product, the operation conditions were selected for process optimization. The criteria used in optimization condition determination were the reproducibility of the 8YSZ product and the particle size, the crystallinity, as well as the operation simplicity. Experimental results showed that a nanoscale/SOFC-grade 8YSZ powder was directly prepared. The quasi-optimum conditions of the process are proposed. [source]

Comparison of stone handling behavior in two macaque species: implications for the role of phylogeny and environment in primate cultural variation

AMERICAN JOURNAL OF PRIMATOLOGY, Issue 12 2008
Charmalie AD Nahallage
Abstract This study describes the stone handling (SH) behavior of captive rhesus macaques and compares it with that of a captive troop of Japanese macaques with reference to the relative contributions of phylogeny-driven behavioral propensities, environmental differences and socially facilitated learning to the formation of culture. These systematically collected data demonstrate for the first time that two closely related macaque species might share a common cultural behavior, SH. The rhesus troop displayed SH behavioral patterns that was already described in Japanese macaque troops. The one exception was a new pattern not yet seen in any Japanese macaque troop. Differences in the physical environment of the two study enclosures may be responsible for some of the variation in observed SH behavioral patterns in these two troops. These data support the idea that environmental factors can be important for the formation of cultural variation, when the key materials needed to perform the behavior are present in both habitats (stones). Our results are consistent with the prediction made by Huffman and Hirata [The biology of tradition: Models and evidence. Cambridge: Cambridge University Press. p 267,296] that an interactive triad of phylogenetic, environmental and social factors can be responsible for the formation of cultural variation in primates. Am. J. Primatol. 70:1124,1132, 2008. © 2008 Wiley-Liss, Inc. [source]