NACA-TR-1170
Behavior of materials under conditions of thermal stress
Year: 1954
Abstract: A review is presented of available information on the behavior of brittle and ductile materials under conditions of thermal stress and thermal shock. For brittle materials, a simple formula relating physical properties to thermal-shock resistance is derived and used to determine the relative significance of two indices currently in use for rating materials. For ductile materials, thermal-shock resistance depends upon the complex interrelation among several metallurgical variables which seriously affect strength and ductility. These variables are briefly discussed and illustrated from literature sources. The importance of simulating operating conditions in tests for rating materials is especially to be emphasized because of the importance of testing conditions in metallurgy. A number of practical methods that have been used to minimize the deleterious effects of thermal stress and thermal shock are outlined.
Subject: AGING (MATERIALS)
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contributor author | NASA - National Aeronautics and Space Administration (NASA) | |
date accessioned | 2017-09-04T15:18:14Z | |
date available | 2017-09-04T15:18:14Z | |
date copyright | 01/01/1954 | |
date issued | 1954 | |
identifier other | MPONEEAAAAAAAAAA.pdf | |
identifier uri | http://yse.yabesh.ir/std/handle/yse/17858 | |
description abstract | A review is presented of available information on the behavior of brittle and ductile materials under conditions of thermal stress and thermal shock. For brittle materials, a simple formula relating physical properties to thermal-shock resistance is derived and used to determine the relative significance of two indices currently in use for rating materials. For ductile materials, thermal-shock resistance depends upon the complex interrelation among several metallurgical variables which seriously affect strength and ductility. These variables are briefly discussed and illustrated from literature sources. The importance of simulating operating conditions in tests for rating materials is especially to be emphasized because of the importance of testing conditions in metallurgy. A number of practical methods that have been used to minimize the deleterious effects of thermal stress and thermal shock are outlined. | |
language | English | |
title | NACA-TR-1170 | num |
title | Behavior of materials under conditions of thermal stress | en |
type | standard | |
page | 38 | |
status | Active | |
tree | NASA - National Aeronautics and Space Administration (NASA):;1954 | |
contenttype | fulltext | |
subject keywords | AGING (MATERIALS) | |
subject keywords | ANALYSIS (MATHEMATICS) | |
subject keywords | BRITTLE MATERIALS | |
subject keywords | DUCTILITY | |
subject keywords | FRACTURE STRENGTH | |
subject keywords | METALS | |
subject keywords | SHOCK RESISTANCE | |
subject keywords | STRESS ANALYSIS | |
subject keywords | STRESS CONCENTRATION | |
subject keywords | THERMAL EXPANSION | |
subject keywords | THERMAL STRESSES | |
subject keywords | THERMODYNAMIC PROPERTIES |