FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W96791895> ?p ?o ?g. }

• W96791895 abstract "A resonating sensor for viscosity facilitating measurements at tunable frequencies is presented. A sample liquid is subjected to time harmonic shear stress induced by a vibrating plate. By measuring the resonant behavior of this fluid-structure interaction the liquid’s rheological properties can be deduced. The resonating plate is affixed to two parallel wires, placed in an external static magnetic field. One of these wires is used to excite lateral vibrations of the plate by means of Lorentz forces while the second acts as pick-up providing an induced voltage representing the movement of the plate. The recorded frequency response is used to determine the liquid’s physical properties. This setup, based on the mechanical coupling of two wires with a small plate and inducing time harmonic shear stresses with the latter, allows examining the test liquid at adjustable frequencies. In first experiments resonance frequencies from 820 Hz to 4040 Hz were achieved for a given geometry. Introduction The focus of our work is on tunable resonating rheometers. One advantage of resonating rheometers in comparison to conventional shear flow based rheometers is the possibility to characterize the physical properties of very complex non-newtonian liquids such as polymeric fluids, suspensions, emulsions etc. Vibrating viscometers are mechanically simpler than other types and the volume of fluid required for their use is much smaller making operation at high pressures and temperatures easier [1]. An overview of conventional principles for measuring viscosity is given in [2]. Piezoelectric or quartz crystal based oscillators proved to be well suitable for viscosity sensing and are commonly reported in literature, see e.g., [3], [4] and [5]. However, there is an increasing interest for vibrating resonators in the low kilohertz range to increase the penetration depth of the shear waves imposed into the liquid by the resonator [6], [7]. To determine the physical properties of a liquid such as viscosity or mass density using a resonator based principle, the change of the oscillator’s quality factor and the shift of its resonant frequency (which are both known in vacuum or air) are recorded when it is immersed into the test liquid. For the investigation of some liquids it can either be important to analyze the liquid’s physical behavior at one particular frequency or at several frequencies in a certain bandwidth. In both cases the capability of tuning the sensor’s resonance frequency is required. In this contribution a rheometer based on a suspended in-plane vibrating plate with tunable resonance frequencies is presented. The principle of this sensor is depicted in Fig. 1(a). A similar setup has been presented in [7] aiming to improve the quality factor of micro-machined sensors. There, the suspended plate has been implemented in silicon technology. The sensor presented in this work consists of a non-conductive plate and two conductive wires placed in a constant magnetic field. The plate (for first prototypes PET and glass have been used) is affixed to the wires using thermal fusing or gluing, thus yielding a mechanical coupling of the two wires. One of these wires is used to deflect the plate in lateral direction by means of Lorentz forces on AC-currents flowing through the wire. The other wire, following the movement of the first, is used as pick-up representing the in-plane movement of the plate by an induced voltage. By varying the normal stresses within both wires by an appropriate tensioning mechanism the desired resonance frequency can be adjusted. Theory and Modeling One-dimensional shear waves in viscous liquids To analytically describe the propagation of shear waves in a viscous liquid induced by a plate resonating at an angular frequency ω and amplitude x and considering a no-slip boundary condition at the solid-liquid interface, see Fig. 2(a), the stress tensor for liquids [8] T = −pI+ 2μE+ λ∇ · u I (1) S E N S O R + T E S T C o n f e r e n c e s 2 0 1 1 S E N S O R P r o c e e d i n g s 6 1 (a) Sensor Principle Fundamental Harmonic Second Harmonic Third Harmonic" @default.
• W96791895 created "2016-06-24" @default.
• W96791895 creator A5083373413 @default.
• W96791895 creator A5085874325 @default.
• W96791895 creator A5087956081 @default.
• W96791895 date "2011-01-01" @default.
• W96791895 modified "2023-10-01" @default.
• W96791895 title "A2.4 - A Suspended Plate In-Plane Resonator for Rheological Measurements at Tunable Frequencisies" @default.
• W96791895 cites W15155431 @default.
• W96791895 cites W1935685727 @default.
• W96791895 cites W1978280489 @default.
• W96791895 cites W2011482553 @default.
• W96791895 cites W2024738701 @default.
• W96791895 cites W2084070632 @default.
• W96791895 cites W2140778545 @default.
• W96791895 cites W3179345641 @default.
• W96791895 doi "https://doi.org/10.5162/sensor11/a2.4" @default.
• W96791895 hasPublicationYear "2011" @default.
• W96791895 type Work @default.
• W96791895 sameAs 96791895 @default.
• W96791895 citedByCount "4" @default.
• W96791895 countsByYear W967918952012 @default.
• W96791895 countsByYear W967918952013 @default.
• W96791895 crossrefType "proceedings-article" @default.
• W96791895 hasAuthorship W96791895A5083373413 @default.
• W96791895 hasAuthorship W96791895A5085874325 @default.
• W96791895 hasAuthorship W96791895A5087956081 @default.
• W96791895 hasBestOaLocation W967918951 @default.
• W96791895 hasConcept C100082104 @default.
• W96791895 hasConcept C115260700 @default.
• W96791895 hasConcept C121332964 @default.
• W96791895 hasConcept C127172972 @default.
• W96791895 hasConcept C127934551 @default.
• W96791895 hasConcept C140190676 @default.
• W96791895 hasConcept C159985019 @default.
• W96791895 hasConcept C192562407 @default.
• W96791895 hasConcept C196445361 @default.
• W96791895 hasConcept C198394728 @default.
• W96791895 hasConcept C200990466 @default.
• W96791895 hasConcept C24890656 @default.
• W96791895 hasConcept C294558 @default.
• W96791895 hasConcept C49040817 @default.
• W96791895 hasConcept C57879066 @default.
• W96791895 hasConcept C62520636 @default.
• W96791895 hasConcept C93356670 @default.
• W96791895 hasConcept C97126364 @default.
• W96791895 hasConceptScore W96791895C100082104 @default.
• W96791895 hasConceptScore W96791895C115260700 @default.
• W96791895 hasConceptScore W96791895C121332964 @default.
• W96791895 hasConceptScore W96791895C127172972 @default.
• W96791895 hasConceptScore W96791895C127934551 @default.
• W96791895 hasConceptScore W96791895C140190676 @default.
• W96791895 hasConceptScore W96791895C159985019 @default.
• W96791895 hasConceptScore W96791895C192562407 @default.
• W96791895 hasConceptScore W96791895C196445361 @default.
• W96791895 hasConceptScore W96791895C198394728 @default.
• W96791895 hasConceptScore W96791895C200990466 @default.
• W96791895 hasConceptScore W96791895C24890656 @default.
• W96791895 hasConceptScore W96791895C294558 @default.
• W96791895 hasConceptScore W96791895C49040817 @default.
• W96791895 hasConceptScore W96791895C57879066 @default.
• W96791895 hasConceptScore W96791895C62520636 @default.
• W96791895 hasConceptScore W96791895C93356670 @default.
• W96791895 hasConceptScore W96791895C97126364 @default.
• W96791895 hasLocation W967918951 @default.
• W96791895 hasOpenAccess W96791895 @default.
• W96791895 hasPrimaryLocation W967918951 @default.
• W96791895 hasRelatedWork W1850705929 @default.
• W96791895 hasRelatedWork W1863321137 @default.
• W96791895 hasRelatedWork W1974028677 @default.
• W96791895 hasRelatedWork W1975388612 @default.
• W96791895 hasRelatedWork W1978280489 @default.
• W96791895 hasRelatedWork W2005794362 @default.
• W96791895 hasRelatedWork W2023401067 @default.
• W96791895 hasRelatedWork W2041242324 @default.
• W96791895 hasRelatedWork W2042447438 @default.
• W96791895 hasRelatedWork W2045429079 @default.
• W96791895 hasRelatedWork W2055099059 @default.
• W96791895 hasRelatedWork W2075728129 @default.
• W96791895 hasRelatedWork W2101104350 @default.
• W96791895 hasRelatedWork W2118100316 @default.
• W96791895 hasRelatedWork W2766306310 @default.
• W96791895 hasRelatedWork W2896527917 @default.
• W96791895 hasRelatedWork W2999135508 @default.
• W96791895 hasRelatedWork W333208424 @default.
• W96791895 hasRelatedWork W48831395 @default.
• W96791895 hasRelatedWork W958501496 @default.
• W96791895 isParatext "false" @default.
• W96791895 isRetracted "false" @default.
• W96791895 magId "96791895" @default.
• W96791895 workType "article" @default.