VARYING TOPOLOGY HEAT SINKS

A heat sink with a primary flow volume (130), an inlet (104), an outlet (106), a bottom plate (126), a top plate (128), distribution, heat transfer and collector sections (108, 112, 116), and flow paths between pillars. The inlet cross-section defines the primary flow volume cross-section and the le...

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Hauptverfasser:	WILCOXON, Ross, KIRSCH, Kathryn L, RANJAN, Ram, SAVIERS, Kimberly R
Format:	Patent
Sprache:	eng ; fre ; ger
Schlagworte:	BLASTING DETAILS OF HEAT-EXCHANGE AND HEAT-TRANSFER APPARATUS, OFGENERAL APPLICATION HEAT EXCHANGE IN GENERAL HEATING LIGHTING MECHANICAL ENGINEERING WEAPONS
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creator	WILCOXON, Ross KIRSCH, Kathryn L RANJAN, Ram SAVIERS, Kimberly R
description	A heat sink with a primary flow volume (130), an inlet (104), an outlet (106), a bottom plate (126), a top plate (128), distribution, heat transfer and collector sections (108, 112, 116), and flow paths between pillars. The inlet cross-section defines the primary flow volume cross-section and the length of the primary flow volume extends into the heat sink at a right angle to the inlet cross-section. The distribution section (108) is proximate to the flow inlet and has distribution pillars (110) extending from the bottom or top plate. The heat transfer section (112) is proximate to the distribution section and has heat transfer pillars (114) extending from the bottom or top plate. The collector section (116) is proximate to the heat transfer section and has collector pillars (118) extending from the bottom or top plate. The distribution cross-section is greater than the heat transfer cross-section which is smaller than the collector cross-section. The flow paths extend outside of the primary flow volume.
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The inlet cross-section defines the primary flow volume cross-section and the length of the primary flow volume extends into the heat sink at a right angle to the inlet cross-section. The distribution section (108) is proximate to the flow inlet and has distribution pillars (110) extending from the bottom or top plate. The heat transfer section (112) is proximate to the distribution section and has heat transfer pillars (114) extending from the bottom or top plate. The collector section (116) is proximate to the heat transfer section and has collector pillars (118) extending from the bottom or top plate. The distribution cross-section is greater than the heat transfer cross-section which is smaller than the collector cross-section. 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subjects	BLASTING DETAILS OF HEAT-EXCHANGE AND HEAT-TRANSFER APPARATUS, OFGENERAL APPLICATION HEAT EXCHANGE IN GENERAL HEATING LIGHTING MECHANICAL ENGINEERING WEAPONS
title	VARYING TOPOLOGY HEAT SINKS
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