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Predicting joint sealant performance of elastomers by computer simulation. I. Justification of method

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Zeitschriftentitel: Journal of Applied Polymer Science
Personen und Körperschaften: Catsiff, E. H., Hoffman, R. F., Kowalewski, R. T.
In: Journal of Applied Polymer Science, 14, 1970, 5, S. 1143-1158
Format: E-Article
Sprache: Englisch
veröffentlicht:
Wiley
Schlagwörter:
Materials Chemistry
Polymers and Plastics
Surfaces, Coatings and Films
General Chemistry
author_facet Catsiff, E. H.
Hoffman, R. F.
Kowalewski, R. T.
Catsiff, E. H.
Hoffman, R. F.
Kowalewski, R. T.
author Catsiff, E. H.
Hoffman, R. F.
Kowalewski, R. T.
spellingShingle Catsiff, E. H.
Hoffman, R. F.
Kowalewski, R. T.
Journal of Applied Polymer Science
Predicting joint sealant performance of elastomers by computer simulation. I. Justification of method
Materials Chemistry
Polymers and Plastics
Surfaces, Coatings and Films
General Chemistry
author_sort catsiff, e. h.
spelling Catsiff, E. H. Hoffman, R. F. Kowalewski, R. T. 0021-8995 1097-4628 Wiley Materials Chemistry Polymers and Plastics Surfaces, Coatings and Films General Chemistry http://dx.doi.org/10.1002/app.1970.070140503 <jats:title>Abstract</jats:title><jats:p>A computerized method has been developed for the analysis of the behavior of a sealed joint. The method is based upon the use of fundamental time‐dependent mechanical properties of a polymeric sealant, which can be easily determined in the laboratory, to feed a digital computer program that performs internal force balances within a given joint seal configuration by dividing the joint seal into a large number of “finite elements” in which the sealant properties are invariant. The computational method is an outgrowth of stress analysis programs that have been developed for use in the study of stress distributions within solid rocket propellant “grains.” Output from the computer program consists of a prediction of the overall geometric deformation of the sealant and the distribution of stresses and strains within the joint seal. Essential to the ideologic development of this method is the “separability” of time‐dependent and strain‐dependent aspects of the behavior of the material properties. However, the method should be operable even when this “separability” is only approximately maintained, as in many real materials. Fundamental properties have been determined on several typical sealant materials. A description is given of the mode of operation of the computational method, but detailed results are given in a companion article.</jats:p> Predicting joint sealant performance of elastomers by computer simulation. I. Justification of method Journal of Applied Polymer Science
doi_str_mv 10.1002/app.1970.070140503
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series Journal of Applied Polymer Science
source_id 49
title Predicting joint sealant performance of elastomers by computer simulation. I. Justification of method
title_unstemmed Predicting joint sealant performance of elastomers by computer simulation. I. Justification of method
title_full Predicting joint sealant performance of elastomers by computer simulation. I. Justification of method
title_fullStr Predicting joint sealant performance of elastomers by computer simulation. I. Justification of method
title_full_unstemmed Predicting joint sealant performance of elastomers by computer simulation. I. Justification of method
title_short Predicting joint sealant performance of elastomers by computer simulation. I. Justification of method
title_sort predicting joint sealant performance of elastomers by computer simulation. i. justification of method
topic Materials Chemistry
Polymers and Plastics
Surfaces, Coatings and Films
General Chemistry
url http://dx.doi.org/10.1002/app.1970.070140503
publishDate 1970
physical 1143-1158
description <jats:title>Abstract</jats:title><jats:p>A computerized method has been developed for the analysis of the behavior of a sealed joint. The method is based upon the use of fundamental time‐dependent mechanical properties of a polymeric sealant, which can be easily determined in the laboratory, to feed a digital computer program that performs internal force balances within a given joint seal configuration by dividing the joint seal into a large number of “finite elements” in which the sealant properties are invariant. The computational method is an outgrowth of stress analysis programs that have been developed for use in the study of stress distributions within solid rocket propellant “grains.” Output from the computer program consists of a prediction of the overall geometric deformation of the sealant and the distribution of stresses and strains within the joint seal. Essential to the ideologic development of this method is the “separability” of time‐dependent and strain‐dependent aspects of the behavior of the material properties. However, the method should be operable even when this “separability” is only approximately maintained, as in many real materials. Fundamental properties have been determined on several typical sealant materials. A description is given of the mode of operation of the computational method, but detailed results are given in a companion article.</jats:p>
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author Catsiff, E. H., Hoffman, R. F., Kowalewski, R. T.
author_facet Catsiff, E. H., Hoffman, R. F., Kowalewski, R. T., Catsiff, E. H., Hoffman, R. F., Kowalewski, R. T.
author_sort catsiff, e. h.
container_issue 5
container_start_page 1143
container_title Journal of Applied Polymer Science
container_volume 14
description <jats:title>Abstract</jats:title><jats:p>A computerized method has been developed for the analysis of the behavior of a sealed joint. The method is based upon the use of fundamental time‐dependent mechanical properties of a polymeric sealant, which can be easily determined in the laboratory, to feed a digital computer program that performs internal force balances within a given joint seal configuration by dividing the joint seal into a large number of “finite elements” in which the sealant properties are invariant. The computational method is an outgrowth of stress analysis programs that have been developed for use in the study of stress distributions within solid rocket propellant “grains.” Output from the computer program consists of a prediction of the overall geometric deformation of the sealant and the distribution of stresses and strains within the joint seal. Essential to the ideologic development of this method is the “separability” of time‐dependent and strain‐dependent aspects of the behavior of the material properties. However, the method should be operable even when this “separability” is only approximately maintained, as in many real materials. Fundamental properties have been determined on several typical sealant materials. A description is given of the mode of operation of the computational method, but detailed results are given in a companion article.</jats:p>
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imprint Wiley, 1970
imprint_str_mv Wiley, 1970
institution DE-Brt1, DE-D161, DE-Gla1, DE-Zi4, DE-15, DE-Pl11, DE-Rs1, DE-105, DE-14, DE-Ch1, DE-L229, DE-D275, DE-Bn3
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spelling Catsiff, E. H. Hoffman, R. F. Kowalewski, R. T. 0021-8995 1097-4628 Wiley Materials Chemistry Polymers and Plastics Surfaces, Coatings and Films General Chemistry http://dx.doi.org/10.1002/app.1970.070140503 <jats:title>Abstract</jats:title><jats:p>A computerized method has been developed for the analysis of the behavior of a sealed joint. The method is based upon the use of fundamental time‐dependent mechanical properties of a polymeric sealant, which can be easily determined in the laboratory, to feed a digital computer program that performs internal force balances within a given joint seal configuration by dividing the joint seal into a large number of “finite elements” in which the sealant properties are invariant. The computational method is an outgrowth of stress analysis programs that have been developed for use in the study of stress distributions within solid rocket propellant “grains.” Output from the computer program consists of a prediction of the overall geometric deformation of the sealant and the distribution of stresses and strains within the joint seal. Essential to the ideologic development of this method is the “separability” of time‐dependent and strain‐dependent aspects of the behavior of the material properties. However, the method should be operable even when this “separability” is only approximately maintained, as in many real materials. Fundamental properties have been determined on several typical sealant materials. A description is given of the mode of operation of the computational method, but detailed results are given in a companion article.</jats:p> Predicting joint sealant performance of elastomers by computer simulation. I. Justification of method Journal of Applied Polymer Science
spellingShingle Catsiff, E. H., Hoffman, R. F., Kowalewski, R. T., Journal of Applied Polymer Science, Predicting joint sealant performance of elastomers by computer simulation. I. Justification of method, Materials Chemistry, Polymers and Plastics, Surfaces, Coatings and Films, General Chemistry
title Predicting joint sealant performance of elastomers by computer simulation. I. Justification of method
title_full Predicting joint sealant performance of elastomers by computer simulation. I. Justification of method
title_fullStr Predicting joint sealant performance of elastomers by computer simulation. I. Justification of method
title_full_unstemmed Predicting joint sealant performance of elastomers by computer simulation. I. Justification of method
title_short Predicting joint sealant performance of elastomers by computer simulation. I. Justification of method
title_sort predicting joint sealant performance of elastomers by computer simulation. i. justification of method
title_unstemmed Predicting joint sealant performance of elastomers by computer simulation. I. Justification of method
topic Materials Chemistry, Polymers and Plastics, Surfaces, Coatings and Films, General Chemistry
url http://dx.doi.org/10.1002/app.1970.070140503