. . "2003-06-03+02:00"^^ . . "Stanoven\u00ED kalibra\u010Dn\u00EDch koeficient\u016F pomoc\u00ED MKP pro m\u011B\u0159en\u00ED zbytkov\u00E9 napjatosti homogenn\u00ED po hloubce odvrt\u00E1vac\u00ED metodou" . "RIV/00216305:26210/03:PU56058!RIV11-MSM-26210___" . "Vysok\u00E9 u\u010Den\u00ED technick\u00E9 v Brn\u011B. Fakulta strojn\u00EDho in\u017Een\u00FDrstv\u00ED. \u00DAstav mechaniky t\u011Bles, mechatroniky a biomechaniky" . "One of the most used methods for measurement residual stresses is the hole-drilling method. This method is based on drilling a small and shallow hole. If the residual stresses are present then the strain releases, which is usually measured by means of strain gauge rosette. The residual stresses from the strains obtained this way, we can determine by the help of derived equations. In these equations exsert calibration coefficients, which represents a relation between relaxed strain and residual stresses. These coefficients, which are functions to many parameters, is necessery to determine in advance. It is possible to determine them by several ways: analytically, numerically (for example through the finite element method: FEM) and experimentally. This article deals with determination of this coefficient numerically by the FEM for measurement of residual stresses which are uniform by the depth for the strain gauge rosette RY 61 S." . . "17"^^ . . . . "Milovy, Czech Republic" . "Stanoven\u00ED kalibra\u010Dn\u00EDch koeficient\u016F pomoc\u00ED MKP pro m\u011B\u0159en\u00ED zbytkov\u00E9 napjatosti homogenn\u00ED po hloubce odvrt\u00E1vac\u00ED metodou" . "Determination of the calibration coefficients through the FEM for measurement of the uniform residual stress by the hole-drilling method"@en . "One of the most used methods for measurement residual stresses is the hole-drilling method. This method is based on drilling a small and shallow hole. If the residual stresses are present then the strain releases, which is usually measured by means of strain gauge rosette. The residual stresses from the strains obtained this way, we can determine by the help of derived equations. In these equations exsert calibration coefficients, which represents a relation between relaxed strain and residual stresses. These coefficients, which are functions to many parameters, is necessery to determine in advance. It is possible to determine them by several ways: analytically, numerically (for example through the finite element method: FEM) and experimentally. This article deals with determination of this coefficient numerically by the FEM for measurement of residual stresses which are uniform by the depth for the strain gauge rosette RY 61 S."@en . "Determination of the calibration coefficients through the FEM for measurement of the uniform residual stress by the hole-drilling method"@en . "Stanoven\u00ED kalibra\u010Dn\u00EDch koeficient\u016F pomoc\u00ED MKP pro m\u011B\u0159en\u00ED zbytkov\u00E9 napjatosti homogenn\u00ED po hloubce odvrt\u00E1vac\u00ED metodou"@cs . "hole-drilling method, residual stress, calibration coefficients, relaxed strain, strain gauge rosette, finite element method"@en . . . "628579" . . . . . "\u0160va\u0159\u00ED\u010Dek, Karel" . "Experiment\u00E1ln\u00ED anal\u00FDza nap\u011Bt\u00ED 2003" . . . . "[A9AB426B57B6]" . . "Milovy" . "N, V, Z(MSM 262100001)" . "1"^^ . "Stanoven\u00ED kalibra\u010Dn\u00EDch koeficient\u016F pomoc\u00ED MKP pro m\u011B\u0159en\u00ED zbytkov\u00E9 napjatosti homogenn\u00ED po hloubce odvrt\u00E1vac\u00ED metodou"@cs . "One of the most used methods for measurement residual stresses is the hole-drilling method. This method is based on drilling a small and shallow hole. If the residual stresses are present then the strain releases, which is usually measured by means of strain gauge rosette. The residual stresses from the strains obtained this way, we can determine by the help of derived equations. In these equations exsert calibration coefficients, which represents a relation between relaxed strain and residual stresses. These coefficients, which are functions to many parameters, is necessery to determine in advance. It is possible to determine them by several ways: analytically, numerically (for example through the finite element method: FEM) and experimentally. This article deals with determination of this coefficient numerically by the FEM for measurement of residual stresses which are uniform by the depth for the strain gauge rosette RY 61 S."@cs . . "1"^^ . "26210" . "80-214-2314-5" . . "RIV/00216305:26210/03:PU56058" . . .