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Main Authors: Houhat, Nesrine, Devaux, Thibaut, Callé, Samuel, Saengdee, Laksana, Gauchet, Séverine Boucaud, Meulen, François Vander
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2504.03674
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author Houhat, Nesrine
Devaux, Thibaut
Callé, Samuel
Saengdee, Laksana
Gauchet, Séverine Boucaud
Meulen, François Vander
author_facet Houhat, Nesrine
Devaux, Thibaut
Callé, Samuel
Saengdee, Laksana
Gauchet, Séverine Boucaud
Meulen, François Vander
contents A thorough comprehension of the rheological behavior of polymers during industrial processes is essential for optimizing manufacturing efficiency and product quality. The final properties and behavior of resulting polymer parts are known to be directly linked to the thermomechanical evolution of materials during their processing. The non-invasive monitoring of this stage could improve the quality of manufactured equipment. This can be done by tracking viscosity off-line on a rheometer. In this article, an experimental method to monitor the viscosity of polymer materials at high and varying temperatures by using ultrasound is proposed. This method allows us to measure the ultrasonic and rheological properties of a sample, simultaneously and in real-time. An ultrasonic instrumentation is adapted to a rheometer for continuous monitoring. It allows high-temperature range measurements (up to 200°C). A dedicated signal processing algorithm is developed to determine the polymer longitudinal acoustic velocity by considering wave packet overlapping and temperature variation. Results on polyethylene show that ultrasonic parameters appear to be sensitive to changes in the polymer state. It enables more accurate detection of the onset of polymer crystallization. This study paves the way for ultrasonic real-time monitoring of the rotomolding process.
format Preprint
id arxiv_https___arxiv_org_abs_2504_03674
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Monitoring of polymer viscosity by simultaneous ultrasonic and rheological measurements at high and varying temperatures
Houhat, Nesrine
Devaux, Thibaut
Callé, Samuel
Saengdee, Laksana
Gauchet, Séverine Boucaud
Meulen, François Vander
Soft Condensed Matter
A thorough comprehension of the rheological behavior of polymers during industrial processes is essential for optimizing manufacturing efficiency and product quality. The final properties and behavior of resulting polymer parts are known to be directly linked to the thermomechanical evolution of materials during their processing. The non-invasive monitoring of this stage could improve the quality of manufactured equipment. This can be done by tracking viscosity off-line on a rheometer. In this article, an experimental method to monitor the viscosity of polymer materials at high and varying temperatures by using ultrasound is proposed. This method allows us to measure the ultrasonic and rheological properties of a sample, simultaneously and in real-time. An ultrasonic instrumentation is adapted to a rheometer for continuous monitoring. It allows high-temperature range measurements (up to 200°C). A dedicated signal processing algorithm is developed to determine the polymer longitudinal acoustic velocity by considering wave packet overlapping and temperature variation. Results on polyethylene show that ultrasonic parameters appear to be sensitive to changes in the polymer state. It enables more accurate detection of the onset of polymer crystallization. This study paves the way for ultrasonic real-time monitoring of the rotomolding process.
title Monitoring of polymer viscosity by simultaneous ultrasonic and rheological measurements at high and varying temperatures
topic Soft Condensed Matter
url https://arxiv.org/abs/2504.03674