Modeling ex-situ thermal impulse sensor responses to non-isothermal heating profiles

Benjamin R Anderson; Hergen Eilers

doi:10.1007/s42452-019-1658-y

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Modeling ex-situ thermal impulse sensor responses to non-isothermal heating profiles

Journal article

Open access

Peer reviewed

Modeling ex-situ thermal impulse sensor responses to non-isothermal heating profiles

Benjamin R Anderson and Hergen Eilers

SN Applied Sciences, Vol.1(12)

11/16/2019

DOI: https://doi.org/10.1007/s42452-019-1658-y

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https://hdl.handle.net/2376/124641

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Abstract

5. Physics (general)

Applied and Technical Physics

Chemistry/Food Science

Earth Sciences

Environment

general

Research Article

Engineering

Materials Science

Ex-situ thermal impulse sensing based on irreversible phase transitions has been a developing field over the past two decades. Typically, these techniques determine thermal impulses assuming a perfect isothermal heating profile, which is not the case for real-life temperature profiles in extreme environments (e.g., structural fires, explosions, gas turbines). To better understand how real-world temperature profiles influence the sensors thermal impulse determinations, we perform phenomenological modeling of a thermal impulse sensor’s response to non-isothermal heating with four-key profile characteristics: finite heating rate, nonzero cooling time constant, temperature spikes, and non-isothermal heating due to the finite size of sensors. We find that in all cases, these effects result in the corresponding equivalent isothermal temperature being lower than the peak temperature, while the equivalent isothermal duration is found to either be lengthened or shortened depending on the effect of interest. These results have important implications for the interpretation of thermal impulse calculations from a wide range of ex-situ thermal impulse sensors.

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Title: Modeling ex-situ thermal impulse sensor responses to non-isothermal heating profiles
Creators: Benjamin R Anderson - Applied Sciences Laboratory, Institute for Shock Physics, Washington State University
Hergen Eilers - Washington State University
Publication Details: SN Applied Sciences, Vol.1(12)
Academic Unit: Institute for Shock Physics
Publisher: Springer International Publishing
Grant note: HDTRA1-15-1-0044 / Defense Threat Reduction Agency (http://dx.doi.org/10.13039/100000774) 2015-DN-BX-K073 / National Institute of Justice (http://dx.doi.org/10.13039/100005289)
Identifiers: 99900876139201842
Language: English
Resource Type: Journal article