4 research outputs found
Experimental study on the rate dependent strength of ice-silica mixture with silica volume fractions up to 0.63
Get PDFWe conducted deformation experiments of ice-1 μm silica beads mixture to clarify the effects of silica beads volume fraction and temperature on the strength. The silica beads volume fraction was changed from 0 to 0.63 to simulate the surfaces of icy bodies. Unconfined uniaxial compression tests were made in a cold room at the temperatures from −10°C to −25°C and the constant strain rates ranged from 2.9 × 10−3 to 8.5 × 10−7 s−1. We determined the rate dependent strength of the mixture written by inline equation = A · σ max n from the relationship between the maximum stress, σ max, on the stress-strain curve and the applied strain rate, inline equation. At −10°C, the mixtures with silica volume fractions of 0.004–0.04 had almost the same strength with pure ice and the stress exponent, n, is about 3. On the other hands, at the silica volume fractions more than 0.15, the mixture became harder as the beads were more included, and it had the same stress exponent, about 6. This high stress exponent might be caused by crack generation. Also, we found that the A for silica volume fractions more than 0.15 was written by an exponential equation related to the silica volume fraction, φ , A = 6.86 × 10−8exp(−6.35 φ ). Furthermore, we found that the n of φ = 0.15 was independent of the temperature, and the brittle-ductile boundary of φ = 0.29 and 0.63 was more than 30°C higher than that of pure ice.journal articl
Year 2014 Tottori University Lectures for Teacher Certificate Renewal
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A CHARACTERIZATION OF REAL HYPERSURFACES OF COMPLEX PROJECTIVE SPACE III
Get PDFapplication/pdfIn [5] and [6] we showed a characterization of real hypersurfaces of type $A_{1}$ and $A_{2}$ (see Introduction) among all real hypersurfaces of complex projective space. In the present paper we will consider them under a weaker condition.departmental bulletin pape
