Creep and creep recovery response of load cells tested according to US and international evaluation procedures

Bartel, Thomas W.; Yaniv, Simone L.

doi:10.6028/jres.102.024

Cited by 17 publications

(9 citation statements)

References 5 publications

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“…In particular we are interested in characterizing the load and recovery creep of the material following the sudden application and removal, respectively, of a constant stress. Both responses are measured experimentally in cells [40][41][42].…”

Section: Linear Response a Dynamic Compressional Modulimentioning

confidence: 99%

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Instabilities and oscillations in isotropic active gels

Banerjee

2011

Soft Matter

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We present a generic formulation of the continuum elasticity of an isotropic crosslinked active gel. The gel is described by a two-component model consisting of an elastic network coupled frictionally to a permeating fluid. Activity is induced by active crosslinkers that undergo an ATP-activated cycle and transmit forces to the network. The on/off dynamics of the active crosslinkers is described via rate equations for unbound and bound motors. For large activity motors yield a contractile instability of the network. At smaller values of activity, the on/off motor dynamics provides an effective inertial drag on the network that opposes elastic restoring forces, resulting in spontaneous oscillations. Our work provides a continuum formulation that unifies earlier microscopic models of oscillations in muscle sarcomers and a generic framework for the description of the large scale properties of isotropic active solids.

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Section: Linear Response a Dynamic Compressional Modulimentioning

confidence: 99%

“…Both responses are measured experimentally in cells. [40][41][42] Consider a muscle fiber of length L with free boundary conditions at the ends z ¼ 0 and z ¼ L, i.e. v z u(z ¼ 0,L) ¼ 0, and no fluctuation in motor densities being imposed at the ends.…”

Section: Creepmentioning

confidence: 99%

Instabilities and oscillations in isotropic active gels

Banerjee

2011

Soft Matter

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“…1. Bartel and Yaniv (1997) and Mohamed et al (2009), since the weight on the scale would be sustained for very long time for the continuous measurement of soil water content, the digital scale was calibrated to capture the deformation of the scale cantilever load cell subjected to long-term loads. The calibration factors, capturing the relationship between scale reading and time, were then established for the precise determination of the changes of the water content during the experiments.…”

Section: Developed Weight-controlled Bender Element Testmentioning

confidence: 99%

Impacts of matric suction equalization on small strain shear modulus of soils during air drying

et al. 2020

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In this study, a weight-control bender element system has been developed to investigate the impact of matric suction equalisation on the measurement of small strain shear modulus (Gmax), during an air-drying process. The setup employed is capable of measuring the shear wave velocity and the corresponding Gmax of the soil sample in either an open system in which the soil sample evaporates freely or in a closed system that allows the process of matric suction equalisation. The comparison between measurements of Gmax in the open and closed systems revealed underestimations of Gmax when matric suction equalisation was ignored due to the non-uniform distribution of water content across the sample cross-sectional area. This study also investigated the time required for matric suction equalisation tse to be established for samples with different sizes. The experimental results indicated two main mechanisms, driving the matric suction equalisation in a closed system during an air-drying process, namely the hydraulic flow of water and the flow of vapour. While the former played the key role when the micro-pores were still saturated at the high range of water content, effects of the latter increased and finally dominated when more air invaded the micro-pores at lower water contents.

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“…For the past eleven years NIST has been performing legal metrology load cell evaluations in accordance to specifications given by the Organization Internationale de Métrologie Légale (OIML) [ 13 ] and by the National Type Evaluation Program (NTEP) [ 14 ]. Discussions of NIST’s conduct of these procedures have been given previously [ 15 ]. During these measurements, the barometric pressure is recorded continuously, typically at 5 min intervals, for a period of two or more days for each load cell evaluation.…”

Section: Uncertainty In the Applied Forcementioning

confidence: 99%

Uncertainty in NIST force measurements

Bartel¹

2005

J. Res. Natl. Inst. Stand. Technol.

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This paper focuses upon the uncertainty of force calibration measurements at the National Institute of Standards and Technology (NIST). The uncertainty of the realization of force for the national deadweight force standards at NIST is discussed, as well as the uncertainties associated with NIST’s voltage-ratio measuring instruments and with the characteristics of transducers being calibrated. The combined uncertainty is related to the uncertainty of dissemination for force transfer standards sent to NIST for calibration.

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Creep and creep recovery response of load cells tested according to US and international evaluation procedures

Cited by 17 publications

References 5 publications

Instabilities and oscillations in isotropic active gels

Instabilities and oscillations in isotropic active gels

Impacts of matric suction equalization on small strain shear modulus of soils during air drying

Uncertainty in NIST force measurements

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