Techniques Used In Imbedding Of Embryonic Specimens In A Plastic Monomer
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Authors
McMahon, Brandon
Date of Issue
1950-04-01
Type
thesis
Language
Subject Keywords
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Abstract
The educational value of Bio-plastic has become more and more apparent in the last few years as the method used to imbed biological specimens have improved and the plastic used in imbedding became cheaper and easier to handle.
The problem, originally, was to find a plastic material cheap enough to allow quantity production yet which when set in the mold was both clear and durable enough for demonstration methods in a classroom.
The experiments made by leading Biological supply houses with monomeric methyl or ethyl methoerylate, monomeric styrene, polymeric powders, and combinations of monomeric liquids and polymeric powders proved to be unsatisfactory. Although methocrylates are unsurpassed in clarity, their sensitivity to heat, long curing cycles, inflammability and toxicity cause them to be unsuitable for general application.The educational value of Bio-plastic has become more and more apparent in the last few years as the method used to imbed biological specimens have improved and the plastic used in imbedding became cheaper and easier to handle.
The problem, originally, was to find a plastic material cheap enough to allow quantity production yet which when set in the mold was both clear and durable enough for demonstration methods in a classroom.
The experiments made by leading Biological supply houses with monomeric methyl or ethyl methoerylate, monomeric styrene, polymeric powders, and combinations of monomeric liquids and polymeric powders proved to be unsatisfactory. Although methocrylates are unsurpassed in clarity, their sensitivity to heat, long curing cycles, inflammability and toxicity cause them to be unsuitable for general application.The educational value of Bio-plastic has become more and more apparent in the last few years as the method used to imbed biological specimens have improved and the plastic used in imbedding became cheaper and easier to handle.
The problem, originally, was to find a plastic material cheap enough to allow quantity production yet which when set in the mold was both clear and durable enough for demonstration methods in a classroom.
The experiments made by leading Biological supply houses with monomeric methyl or ethyl methoerylate, monomeric styrene, polymeric powders, and combinations of monomeric liquids and polymeric powders proved to be unsatisfactory. Although methocrylates are unsurpassed in clarity, their sensitivity to heat, long curing cycles, inflammability and toxicity cause them to be unsuitable for general application.The educational value of Bio-plastic has become more and more apparent in the last few years as the method used to imbed biological specimens have improved and the plastic used in imbedding became cheaper and easier to handle.
The problem, originally, was to find a plastic material cheap enough to allow quantity production yet which when set in the mold was both clear and durable enough for demonstration methods in a classroom.
The experiments made by leading Biological supply houses with monomeric methyl or ethyl methoerylate, monomeric styrene, polymeric powders, and combinations of monomeric liquids and polymeric powders proved to be unsatisfactory. Although methocrylates are unsurpassed in clarity, their sensitivity to heat, long curing cycles, inflammability and toxicity cause them to be unsuitable for general application.