Add to ORKGImaging methods are applied in engineering and experimental mechanics areas to measure strain fields. The SPOTS project tackles the problem of traceability in optical strain measurement. Strain, being a displacement derivative, is a measurement quantity derived from the base unit length. We outline routes for traceability of optical strain measurement values, and underline the role of measurement standards for strain. Measurement uncertainty for calibration of an ESPI interferometer is detailed
Electronic speckle pattern interferometry (ESPI) can provide non-contact, high-precision, and full-f...
Micro-image strain sensing (MISS) is an innovative technology to measure strain within a measurement...
Abstract. Validation and calibration of optical full-field techniques that are used to measure strai...
There are no standard reference materials suitable for the calibration of full-field optical strain ...
It has not been common practice to calibrate optical systems for measuring full-field strain distrib...
Abstract. The results are presented using the procedure outlined by the Standardisation Project for ...
The ‘Standardization Project for Optical Techniques of Strain measurement’ (SPOT...
The design and testing of a reference material for the calibration of optical systems for strain mea...
The results are presented using the procedure outlined by the Standardisation Pr...
The design and testing of a reference material for the calibration of optical systems for strain mea...
The need for standards in optical methods of strain measurement has been discussed previously and at...
The advent of digital imaging technology and huge increases in data-processing power have led to eno...
We review basic metrological terms related to the use of measurement equipment f...
Validation and calibration of optical full-field techniques that are used to measure strain and dis...
Validation and calibration of optical full-field techniques that are used to mea...
Electronic speckle pattern interferometry (ESPI) can provide non-contact, high-precision, and full-f...
Micro-image strain sensing (MISS) is an innovative technology to measure strain within a measurement...
Abstract. Validation and calibration of optical full-field techniques that are used to measure strai...
There are no standard reference materials suitable for the calibration of full-field optical strain ...
It has not been common practice to calibrate optical systems for measuring full-field strain distrib...
Abstract. The results are presented using the procedure outlined by the Standardisation Project for ...
The ‘Standardization Project for Optical Techniques of Strain measurement’ (SPOT...
The design and testing of a reference material for the calibration of optical systems for strain mea...
The results are presented using the procedure outlined by the Standardisation Pr...
The design and testing of a reference material for the calibration of optical systems for strain mea...
The need for standards in optical methods of strain measurement has been discussed previously and at...
The advent of digital imaging technology and huge increases in data-processing power have led to eno...
We review basic metrological terms related to the use of measurement equipment f...
Validation and calibration of optical full-field techniques that are used to measure strain and dis...
Validation and calibration of optical full-field techniques that are used to mea...
Electronic speckle pattern interferometry (ESPI) can provide non-contact, high-precision, and full-f...
Micro-image strain sensing (MISS) is an innovative technology to measure strain within a measurement...
Abstract. Validation and calibration of optical full-field techniques that are used to measure strai...