The superposition of autoradiographs and micrographs using the kodak dye transfer process

A kodak dye transfer process is described for making a composite print showing the autoradiograph and micrograph of metallic specimens in appropriate colors. The autoradiograph and micrograph are used in place of separation negatives to make composite prints which are more easily interpreted than se...

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Veröffentlicht in:	Intern. J. Appl. Radiation and Isotopes 1959-07, Vol.5 (4), p.302-302
Hauptverfasser:	Makin, S.M., Rogers, G.T.
Format:	Artikel
Sprache:	eng
Schlagworte:	ALUMINUM ALLOYS- CHROMIUM- COLOR- DISTRIBUTION- DYES- FURNACES- HEAT RESISTING METALS- INDUCTION- MELTING- MELTING POINTS- METALS- MICROSCOPY- PHOTOGRAPHIC FILM- RADIOAUTOGRAPHY- TRACER TECHNIQUES- VACUUM- ZINC ALLOYS ALUMINUM ALLOYS- COLOR- COPPER- COPPER ALLOYS- COPPER 64- DISTRIBUTION- DYES- METALS- MICROSCOPY- PHOTOGRAPHIC FILM- RADIOAUTOGRAPHY- TRACER TECHNIQUES Autoradiography METALLURGY AND CERAMICS Microscopy Old Medline Radiography
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container_end_page	302
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container_title	Intern. J. Appl. Radiation and Isotopes
container_volume	5
creator	Makin, S.M. Rogers, G.T.
description	A kodak dye transfer process is described for making a composite print showing the autoradiograph and micrograph of metallic specimens in appropriate colors. The autoradiograph and micrograph are used in place of separation negatives to make composite prints which are more easily interpreted than separate or superposed black and white prints. Examples shown include an autoradiograph obtained using copper-64 as a tracer to show the distribution of copper in an aluminum -copper alloy, and the distribution of chromium in an aluminum - zinc - magnesium -chromium alloy. The matrices were dyed to give a suitable contrast in colors. (C.H.)
doi_str_mv	10.1016/0020-708X(59)90221-2
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J. Appl. Radiation and Isotopes</title><addtitle>Int J Appl Radiat Isot</addtitle><description>A kodak dye transfer process is described for making a composite print showing the autoradiograph and micrograph of metallic specimens in appropriate colors. The autoradiograph and micrograph are used in place of separation negatives to make composite prints which are more easily interpreted than separate or superposed black and white prints. Examples shown include an autoradiograph obtained using copper-64 as a tracer to show the distribution of copper in an aluminum -copper alloy, and the distribution of chromium in an aluminum - zinc - magnesium -chromium alloy. The matrices were dyed to give a suitable contrast in colors. 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subjects	ALUMINUM ALLOYS- CHROMIUM- COLOR- DISTRIBUTION- DYES- FURNACES- HEAT RESISTING METALS- INDUCTION- MELTING- MELTING POINTS- METALS- MICROSCOPY- PHOTOGRAPHIC FILM- RADIOAUTOGRAPHY- TRACER TECHNIQUES- VACUUM- ZINC ALLOYS ALUMINUM ALLOYS- COLOR- COPPER- COPPER ALLOYS- COPPER 64- DISTRIBUTION- DYES- METALS- MICROSCOPY- PHOTOGRAPHIC FILM- RADIOAUTOGRAPHY- TRACER TECHNIQUES Autoradiography METALLURGY AND CERAMICS Microscopy Old Medline Radiography
title	The superposition of autoradiographs and micrographs using the kodak dye transfer process
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