Determination of AFM-cantilever spring constants using the TU Ilmenau force displacement measurement device. - In: Full papers, ISBN 978-80-01-05793-3, (2015), insges. 6 S.
This paper discusses the determination of spring constants of AFM-cantilevers using a force displacement measurement device based on electromagnetic force compensated (EMFC) load cells. The EMFC load cell was modified to utilize it as a combined displacement and force measurement device enabling the possibility to determine the spring constant of AFM-cantilevers with one sensor without the need of an additional displacement setting stage. The paper focuses on the determination of spring constants and the determination of the measurement uncertainty, which is down to 2.75 %.
Estimate of the inertial torque in rotating shafts - a metrological approach to signal processing. - In: 3rd International Congress on Mechanical Metrology (CIMMEC 2014), (2015), 1, S. 012019, insges. 11 S.
http://dx.doi.org/10.1088/1742-6596/648/1/012019
Thermal decoupling of heat sources by means of PCM-shielding. - In: Proceedings, (2015), S. 500-504
Towards metering of tap water by Lorentz force velocimetry: realization and improvement of non-contact flow measurement method. - In: Proceedings, (2015), S. 303-308
Dynamic calibration of a multi-component force-/torque transducer. - In: Proceedings, (2015), S. 46-49
Multi-Component Force-/Torque Transducers are used in applications where the direction of the force- and torque vectors as well as their magnitude are unknown and time-dependent such as robotics, flow measurement or nondestructive testing. In contrast to the measurement task the calibration of those Sensors is only done statically in most cases. When the measurands are getting closer to the sensors resonance frequency, the usage of static calibration factors leads to deviations in the measurement. A dynamic calibration can be used to identify the frequency responses of the sensor and is the basis for designing an appropriate filter that compensates these deviations. In this paper the dynamic properties of a multi-component force-/torque transducer are investigated using a calibration system based on a voice-coil actuator which allows the application of force with different waveforms. The results of the measurements are compared with results of FEM calculations and results of a static calibration and a compensation filter is designed.
Calibration bench for heat flux sensors. - In: Journal of thermoelectricity, ISSN 1607-8829, (2015), 1, S. 49-59
Sartorius susceptometer for precise measurement of susceptibility and magnetization of weights. - In: 5th International Metrology Conference 2014 (CAFMET 2014), ISBN 978-1-63439-598-4, (2015), S. 109-112
Dry block calibrator using heat flux sensors and an adiabatic shield. - In: International journal of thermophysics, ISSN 1572-9567, Bd. 36 (2015), 8, S. 2085-2098
The main problems of conventional dry block calibrators are axial temperature gradients and calibration results which are strongly influenced by the geometry and the thermal properties of the thermometers under test.To overcome these disadvantages, a new dry block calibrator with improved homogeneity of the inner temperature fieldwas developed for temperatures in the range from room temperature up to 600 ˚C. The inner part of the dry block calibrator is a cylindrical normalization block which is divided into three parts in the axial direction. Between these parts, heat flux sensors are placed to measure the heat flux in the axial direction inside the normalization block. Each part is attached to a separate tube-shaped heating zone of which the heating power can be controlled in a way that the axial heat flux measured by means of the heat flux sensors is zero. Additionally, an internal reference thermometer is used to control the absolute value of the temperature inside the normalization block. To minimize the radial heat flux, an adiabatic shield is constructed which is composed of a secondary heating zone that encloses the whole assembly. For rapid changes of the set point from high to low temperatures, the design contains an additional ventilation system to cool the normalization block. The present paper shows the operating principle as well as the results of the design process, in which numerical simulations based on the finite element method were used to evaluate and optimize the design of the dry block calibrator. The final optimized design can be used to build a prototype of the dry block calibrator.
http://dx.doi.org/10.1007/s10765-015-1943-y
Uncertainty of measurement for the inertial torque estimation in angular acceleration ramps of rotating shafts. - In: Proceedings of the 15th international conference of the European Society for Precision Engineering and Nanotechnology, (2015), S. 165-166
Ongoing trends in precision metrology, particularly in nanopositioning and nanomeasuring technology. - In: Technisches Messen, ISSN 2196-7113, Bd. 82 (2015), 7/8, S. 359-366
http://dx.doi.org/10.1515/teme-2015-0011