Existing strain gage technologies as applied to orthotropic composite materials are reviewed. The bonding procedures, transverse sensitivity effects, errors due to gage misalignment, and temperature compensation methods are addressed. Numerical examples are included where appropriate. It is shown that the orthotropic behavior of composites can result in experimental error which would not be expected based on practical experience with isotropic materials. In certain cases, the transverse sensitivity of strain gages and/or slight gage misalignment can result in strain measurement errors
A weldable type strain gage was used to measure low level thermal stress in an elevated temperature ...
Conventional resistance strain gage technology uses "bonded" strain gages. These foil or wire gages ...
An off-axis tensile test theory based on Hooke's Law is applied to glass fiber reinforced laminates....
This article gives an overview on the application of strain gauge techniques to the analysis of the...
The present work analyses the errors affecting the strains measured by misaligned strain gauges inst...
Strain gage apparent strain (thermal output) is one of the largest sources of error associated with ...
Electrical resistance strain gauges are increasingly used for the determination of the strain field...
A simple experimental procedure involving measurement of strain through strain gages, has been devel...
Strain gage is installed during molding of composite and utilizes the adhesive properties of the mat...
Four major areas of interest with respect to utilizing strain gages on carbon/carbon (with SiC surfa...
An experimental evaluation was conducted at NASA Lewis Research Center to compare and contrast the p...
A PdCr based electrical resistance strain gage was demonstrated in the laboratory to be a viable sen...
Thermoelastic stress analysis measures temperature variations in loaded solids and relates these to ...
The application of strain gauges as recommended by the ASTM standards provides accurate strain measu...
A number of optical techniques used for the analysis of in-plane displacements or strains are review...
A weldable type strain gage was used to measure low level thermal stress in an elevated temperature ...
Conventional resistance strain gage technology uses "bonded" strain gages. These foil or wire gages ...
An off-axis tensile test theory based on Hooke's Law is applied to glass fiber reinforced laminates....
This article gives an overview on the application of strain gauge techniques to the analysis of the...
The present work analyses the errors affecting the strains measured by misaligned strain gauges inst...
Strain gage apparent strain (thermal output) is one of the largest sources of error associated with ...
Electrical resistance strain gauges are increasingly used for the determination of the strain field...
A simple experimental procedure involving measurement of strain through strain gages, has been devel...
Strain gage is installed during molding of composite and utilizes the adhesive properties of the mat...
Four major areas of interest with respect to utilizing strain gages on carbon/carbon (with SiC surfa...
An experimental evaluation was conducted at NASA Lewis Research Center to compare and contrast the p...
A PdCr based electrical resistance strain gage was demonstrated in the laboratory to be a viable sen...
Thermoelastic stress analysis measures temperature variations in loaded solids and relates these to ...
The application of strain gauges as recommended by the ASTM standards provides accurate strain measu...
A number of optical techniques used for the analysis of in-plane displacements or strains are review...
A weldable type strain gage was used to measure low level thermal stress in an elevated temperature ...
Conventional resistance strain gage technology uses "bonded" strain gages. These foil or wire gages ...
An off-axis tensile test theory based on Hooke's Law is applied to glass fiber reinforced laminates....