Preliminary characterization of anelastic effects in the flexure mechanism for a new Kibble balance at NIST

Abstract: A new Kibble balance is being built at the National Institute of Standards and Technology (NIST). For the first time in one of the highly accurate versions of this type of balance, a single flexure mechanism is used for both modes of operation: the weighing mode and the velocity mode. The mechanism is at the core of the new balance design as it represents a paradigm shift for NIST away from using knife edge-based balance mechanisms, which exhibit hysteresis in the measurement procedure of the weighing mode. Me… Show more

“…Here, we are delighted to be able to include four excellent contributions. The role of anelastic effects in flexure mechanisms for precision metrological systems, such a Kibble balances, was analysed by Keck et al [1] in a joint submission from the United States National Institute of Standards and Technology (NIST) and TU Ilmenau. In a further joint paper by NIST and TU Ilmenau, Schulze et al [2] propose the use of an electrostatic force balance to improve the realization and dissemination of radionuclide activity.…”

Precision measurement and engineering at the 60th Ilmenau Scientific Colloquium

“…Here, we are delighted to be able to include four excellent contributions. The role of anelastic effects in flexure mechanisms for precision metrological systems, such a Kibble balances, was analysed by Keck et al [1] in a joint submission from the United States National Institute of Standards and Technology (NIST) and TU Ilmenau. In a further joint paper by NIST and TU Ilmenau, Schulze et al [2] propose the use of an electrostatic force balance to improve the realization and dissemination of radionuclide activity.…”

Precision measurement and engineering at the 60th Ilmenau Scientific Colloquium