971 resultados para cereal grains
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Contiene: T. I (VIII, VIII, 472 p., [1] h. de map. pleg.)
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"Serial no. 101-7."
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Includes bibliographical references (p. 64).
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"July 1937."
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Cover title.
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Issued in cooperation with Kansas Agricultural Experiment Station.
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Mode of access: Internet.
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Daniel Rosenfield, team leader.
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"FCIC 30430-1."
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this is a black and white copy of a lost /unlocated original. COPY print by James R. Dunlop, Washington, DC
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Published also in U. S. Census office. 10th census, 1880. Census reports, v. 3.
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"Additions" and "Corrections": [4] p. at end.
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Additions of strontium to hypoeutectic aluminum-silicon alloys modify the morphology of the eutectic silicon phase from a coarse platelike structure to a fine fibrous structure. Thermal analysis, interrupted solidification, and microstructural examination of sand castings in this work revealed that, in addition to a change in silicon morphology, modification with strontium also causes an increase in the size of eutectic grains. The eutectic grain size increases because fewer grains nucleate, possibly due to poisoning of the phosphorus-based nucleants, that are active in the unmodified alloy. A simple growth model is developed to estimate the interface velocity during solidification of a eutectic grain. The model confirms, independent of microstructural observations, that the addition of 100 ppm strontium increases the eutectic grain size by at least an order of magnitude compared with the equivalent unmodified alloy. The model predicts that the growth velocity varies significantly during eutectic growth. At low strontium levels, these variations may be sufficient to cause transitions between flake and fibrous silicon morphologies depending on the casting conditions. The model can be used to rationally interpret the eutectic grain structure and silicon morphology of fully solidified aluminum-silicon castings and, when coupled with reliable thermal data, can be used to estimate the eutectic grain size.