EPJ Web Conf.
Volume 225, 2020ANIMMA 2019 – Advancements in Nuclear Instrumentation Measurement Methods and their Applications
|Number of page(s)||4|
|Published online||20 January 2020|
Report of High Temperature Measurements with a Fabry-Perot Extensometer
Service d’Etudes Analytiques et de Réactivité des Surfaces (SEARS), CEA, Université Paris-Saclay
2 Service d’Etude des Matériaux Irradiés, CEA, Université Paris-Saclay
3 Service de Physique Expérimentale d’essais en Sûreté et d’Instrumentation (SPESI), CEA
G.Cheymol, A. Verneuil, H. Maskrot are with Den – Service d’Etudes Analytiques et de Réactivité des Surfaces (SEARS), CEA, Université Paris-Saclay, F-91191, Gif sur Yvette, France (33(0)1.69.08.62.71; e-mail: firstname.lastname@example.org.
P.Grange is with Den – Service d’Etude des Matériaux Irradiés (SEMI),CEA, Université Paris-Saclay, F-91191, Gif sur Yvette, France
C Destouches is with Den – Service de Physique Expérimentale d’essais en Sûreté et d’Instrumentation (SPESI), CEA, F-13108, St Paul lez Durance, France.
Published online: 20 January 2020
Fabry-Perot (FP) sensors like other Fiber Optic (FO) sensors may be of particular interest for in pile experiments in MTR with little room available thanks to their compact size. Light weight also reduces gamma heating hence limiting the thermal effect. Different physical parameters such as temperature, strain, displacement, vibration, pressure, or refractive index may be sensed through the measurement of the optical path length difference in the cavity. We have developed a Fabry-Perot extensometer able to operate at high temperature (up to 400°C), under a high level of radiation (neutron and gamma flux). The measurement based on interferometry is largely insensitive to radiation induced attenuation (RIA) thanks to the wavelength encoding of the useful signal, but for such high fluence as encountered in a reactor core, a special rad-hard fiber is needed. Operating in the wavelength domain around 1ím remains preferable to minimize the impact of irradiation. Moreover, fast neutron radiation is expected to change the structure of the fiber and possibly others materials in the transducer. Then, we revised the basic scheme of Extrinsic Fabry-Perot Interferometer (EFPI) so that the effects of compaction remain limited. Tests under mixed neutron and gamma irradiation permitted to verify the general behavior and particularly the low drift with radiation induced compaction (RIC). Also, two types of tests have been conducted to verify the accuracy at high temperature. The first ones are “measurements” of thermal dilatation of materials: the sensor is fixed on a sample and knowing its thermal expansion, it is possible to predict the measurement expected from the optical sensor when the temperature is increased from low to high temperature. The comparison between the predicted and experimental outputs informs on how the sensor is accurate. The second types are tests on a tensile test bench operating at high temperature. The Fabry-Perot measurements are compared, in the elastic domain, with the expected strain given by the Young modulus of the material, and also on a larger strain domain, with the measurements of a high temperature axial extensometer. Both types of tests are presented and commented.
Key words: Extensometer / Fabry Perot sensor / Material testing reactor / Optical fiber sensor / White light interferometry
© The Authors, published by EDP Sciences, 2020
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