Add to ORKGStrain gage apparent strain (thermal output) is one of the largest sources of error associated with the measurement of strain when temperatures and mechanical loads are varied. In this paper, experimentally determined apparent strains of WK-type strain gages, installed on both metallic and composite-laminate materials of various lay-ups and resin systems for temperatures ranging from -450 F to 230 F are presented. For the composite materials apparent strain in both the 0 ply orientation angle and the 90 ply orientation angle were measured. Metal specimens tested included: aluminum-lithium alloy (Al-LI 2195-T87), aluminum alloy (Al 2219-T87), and titanium alloy. Composite materials tested include: graphite-toughened-epoxy (IM7/997- 2), graph...
Gauges fabricated from specially developed Fe-Cr-Al-V-Ti-Y alloy wire in the Republic of China were ...
An experimental evaluation of Pd 13 percent Cr and of BCL-3 alloy wire strain gages was conducted on...
Test results on suitability of 15 alloys for use in strain gages at temperatures up to 1200 deg
A weldable type strain gage was used to measure low level thermal stress in an elevated temperature ...
An experimental evaluation was conducted at NASA Lewis Research Center to compare and contrast the p...
Electrical-resistance strain gauges - high strain response, hysteresis, strain sensitivity, creep, z...
A Priest laser interferometer was developed to measure the thermal strain of composite laminates. Th...
A detailed experimental evaluation is underway at the NASA Lewis Research Center to compare and cont...
Since 1987, a very substantial amount of R&D has been conducted in an attempt to develop reliable st...
Significant strain-gage errors may exist in measurements acquired in transient thermal environments ...
Laboratory experiments were performed to study changes in strain-gage bridge load calibrations on a ...
Existing strain gage technologies as applied to orthotropic composite materials are reviewed. The bo...
Conventional resistance strain gage technology uses "bonded" strain gages. These foil or wire gages ...
Materials were evaluated that could be used in manufacturing electrical resistance strain gages for ...
This report describes the development of a user friendly weldable strain gage employing the NASA Lew...
Gauges fabricated from specially developed Fe-Cr-Al-V-Ti-Y alloy wire in the Republic of China were ...
An experimental evaluation of Pd 13 percent Cr and of BCL-3 alloy wire strain gages was conducted on...
Test results on suitability of 15 alloys for use in strain gages at temperatures up to 1200 deg
A weldable type strain gage was used to measure low level thermal stress in an elevated temperature ...
An experimental evaluation was conducted at NASA Lewis Research Center to compare and contrast the p...
Electrical-resistance strain gauges - high strain response, hysteresis, strain sensitivity, creep, z...
A Priest laser interferometer was developed to measure the thermal strain of composite laminates. Th...
A detailed experimental evaluation is underway at the NASA Lewis Research Center to compare and cont...
Since 1987, a very substantial amount of R&D has been conducted in an attempt to develop reliable st...
Significant strain-gage errors may exist in measurements acquired in transient thermal environments ...
Laboratory experiments were performed to study changes in strain-gage bridge load calibrations on a ...
Existing strain gage technologies as applied to orthotropic composite materials are reviewed. The bo...
Conventional resistance strain gage technology uses "bonded" strain gages. These foil or wire gages ...
Materials were evaluated that could be used in manufacturing electrical resistance strain gages for ...
This report describes the development of a user friendly weldable strain gage employing the NASA Lew...
Gauges fabricated from specially developed Fe-Cr-Al-V-Ti-Y alloy wire in the Republic of China were ...
An experimental evaluation of Pd 13 percent Cr and of BCL-3 alloy wire strain gages was conducted on...
Test results on suitability of 15 alloys for use in strain gages at temperatures up to 1200 deg