Dhruthiman R. Mantheni scite author profile

Three electrorheological fluids (ERFs) of recently synthesized Polyaniline. HCl and Cellulose fluids as well as a commercial product from Fludicon® (Germany), were evaluated with a two-electrode probe unit and by Dielectric Analysis (DEA). The study was a part of an ongoing medical device development project. The dielectric response times were calculated using the critical peak frequency in a corresponding Debye plot of Tan Delta (loss factor/permittivity) vs. log frequency. The DEA revealed the response times (tau, τ) in ms. The Fludicon® ERF was DEA durable (repeat cycles produced same results) and the τ was temperature dependent: 16 ms at 25˚C and 0.16 ms at 80˚C. The Cellulose ERF was somewhat DEA durable and the τ was 5.5 ms at 25˚C and 0.21 ms at 80˚C. The respo nse times were logarithmic with the temperature (C) wi th a correlation coefficient of >0.98 for the Cellulose and Fludicon® ERFs. The Polyaniline ERF had a τ of 53 ms at 25˚C in the 1 st DEA run and there was no indication of a τ for the remaining DEA tests.

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Evaluating drug delivery of solid dose tablets by isothermal mechanical analysis

Badipatla

Pohlman

Maheswaram

et al. 2011

J Therm Anal Calorim

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Dhruthiman R. Mantheni

Characterization of crystalline and amorphous content in pharmaceutical solids by dielectric thermal analysis

Solid-state mechanical properties of crystalline drugs and excipients

Solid state studies of drugs and chemicals by dielectric and calorimetric analysis

Dielectric Analysis of Response Time in Electrorheological Fluids Developed for Medical Devices

Evaluating drug delivery of solid dose tablets by isothermal mechanical analysis

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