1000 resultados para Vol de données

Silva Fennica Vol. 19, 1985.

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Julkaistu Silva Fennica Vol. 19(4) -numeron liitteenä.

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Silva Fennica Vol. 20, 1986.

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Julkaistu Silva Fennica Vol. 20(4) -numeron liitteenä.

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Silva Fennica Vol. 21, 1987.

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Julkaistu Silva Fennica Vol. 21(4) -numeron liitteenä.

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Silva Fennica Vol. 23, 1989.

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Julkaistu Silva Fennica Vol. 23(4) -numeron liitteenä.

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Silva Fennica Vol. 24, 1990.

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Julkaistu Silva Fennica Vol. 24(4) -numeron liitteenä.

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Silva Fennica Vol. 25, 1991.

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Julkaistu Silva Fennica Vol. 25(4) -numeron liitteenä.

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Silva Fennica Vol. 26, 1992.

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Julkaistu Silva Fennica Vol. 26(4) -numeron liitteenä.

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Silva Fennica Vol. 27, 1993.

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Julkaistu Silva Fennica Vol. 27(4) -numeron liitteenä.

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Silva Fennica Vol. 4. 1970.

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Julkaistu Silva Fennica Vol. 5(1) -numeron liitteenä.

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Silva Fennica Vol. 11, 1977.

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Julkaistu Silva Fennica Vol. 11(4) -numeron liitteenä.

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Silva Fennica. A quarterly journal of forest science. Contents Vol. 28, 1994.

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Julkaistu Silva Fennica Vol. 28(4) -numeron liitteenä.

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Silva Fennica. A quarterly journal of forest science. Contents Vol. 29, 1995.

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Silva Fennica. A quarterly journal of forest science. Contents Vol. 30, 1996.

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Silva Fennica. A quarterly journal of forest science. Contents Vol. 31, 1997.

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Processing maps for hot-working of powder metallurgy 1100 Al-10 vol % SiC-particulate metal-matrix composite

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The hot-working characteristics of the metal-matrix composite (MMC) Al-10 vol % SiC-particulate (SiCp) powder metallurgy compacts in as-sintered and in hot-extruded conditions were studied using hot compression testing. On the basis of the stress-strain data as a function of temperature and strain rate, processing maps depicting the variation in the efficiency of power dissipation, given by eegr = 2m/(m+1), where m is the strain rate sensitivity of flow stress, have been established and are interpreted on the basis of the dynamic materials model. The as-sintered MMC exhibited a domain of dynamic recrystallization (DRX) with a peak efficiency of about 30% at a temperature of about 500°C and a strain rate of 0.01 s�1. At temperatures below 350°C and in the strain rate range 0.001�0.01 s�1 the MMC exhibited dynamic recovery. The as-sintered MMC was extruded at 500°C using a ram speed of 3 mm s�1 and an extrusion ratio of 10ratio1. A processing map was established on the extruded product, and this map showed that the DRX domain had shifted to lower temperature (450°C) and higher strain rate (1 s�1). The optimum temperature and strain rate combination for powder metallurgy billet conditioning are 500°C and 0.01 s�1, and the secondary metal-working on the extruded product may be done at a higher strain rate of 1 s�1 and a lower temperature of 425°C.

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