FIELD: solid-state physics. SUBSTANCE: after removal of plastic relaxed internal stresses and increase in homogeneousness of material temperature coefficient of linear deformation and modulus of elasticity are measured in blanks of two metals with similar crystal structure under normal conditions. Then straight line equation is set up which is used for determination of temperature coefficient of linear deformation for metals with given crystal structure. EFFECT: more accurate measurement results. 2 tbl
Title | Year | Author | Number |
---|---|---|---|
METHOD DETERMINING TEMPERATURE COEFFICIENT OF LINEAR DEFORMATION | 1995 |
|
RU2096769C1 |
METHOD DETERMINING THERMAL CONDUCTIVITY OF METALS AT VARIOUS TEMPERATURES | 1995 |
|
RU2096771C1 |
METHOD DETERMINING ELASTICITY MODULUS OF METAL AT VARIOUS TEMPERATURES | 1996 |
|
RU2116644C1 |
METHOD DETERMINING MAGNETOSTRICTION OF MATERIAL | 1996 |
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METHOD OF IMPROVING THE RELIABILITY OF PARTS | 1995 |
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METHOD FOR DETERMINATION OF PLASTIC AND ELASTIC COMPONENTS OF CONSTRUCTIONAL MATERIAL HYSTERESIS LOOP | 1996 |
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METHOD OF DETERMINATION OF HEAT CAPACITY OF METALS AT DIFFERENT TEMPERATURES | 1992 |
|
RU2036467C1 |
METHOD FOR HARDENING OF PARTS | 1993 |
|
RU2065500C1 |
METHOD OF DETERMINATION OF INTERVAL OF WORKING TEMPERATURE OF THERMOBIMETAL | 1992 |
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RU2079125C1 |
METHOD FOR DETERMINATION OF SENSITIVITY OF THERMOBIMETAL | 1991 |
|
RU2034281C1 |
Authors
Dates
1997-10-27—Published
1996-07-12—Filed