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Faculty of Polymer Technology is the only one in South East Europe offering holistic study programs in polymer technology, covering all aspects: Chemistry and Materials Science, Design and Simulation, Processing, Characterization of polymer materials and Applications.

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Sunday, November 16, 2025

/ Categories: News

Publication of a scientific article entitled "How Method Matters: The Impact of Material Characterization Techniques on Liquid Silicone Rubber Injection Molding Simulations"

In November 2025, a scientific article entitled "How Method Matters: The Impact of Material Characterisation Techniques on Liquid Silicone Rubber Injection Moulding Simulations" was published in the journal Polymers 2025, Volume 17, Issue 22, 3086 (IF=4.9). The article is the result of joint research work by FTPO, PCCL and MUL, with the participation of authors Maurício Azevedo, Silvester Bolka and Clemens Holzer.

The article is accessible on the following link: How Method Matters: The Impact of Material Characterisation Techniques on Liquid Silicone Rubber Injection Moulding Simulations

Article Summary

Injection moulding of liquid silicone rubber (LSR) requires reliable computer-aided engineering simulations to support process optimisation, which in turn depend on accurate material data. In this study, thermo-physical and kinetic properties of a highly filled injection moulding (IM) grade of LSR were systematically characterised using complementary experimental approaches, and their impact on simulation fidelity was critically assessed. Specific heat capacity was measured using both modulated DSC and the standard sapphire method, revealing temperature dependence but no intrinsic change during curing, with sapphire-based data incorporating enthalpic effects more realistically for process prediction. Thermal conductivity was found to be nearly constant across the processing temperature range. Curing kinetics were investigated by calorimetry and rheology, with the former supporting an autocatalytic mechanism and the latter suggesting an 𝑛𝑡ℎ-order model, reflecting differences in detection sensitivity and onset characterisation. When implemented into injection moulding simulations, viscosity primarily affected injection pressures, while differences in specific heat capacity and curing kinetics strongly influenced predicted curing profiles and cycle times. These results emphasise that dataset choice, particularly for curing-related parameters, is critical to achieving predictive accuracy in LSR injection moulding simulations. Unlike previous studies on LSR injection moulding, which typically adapt thermoplastic-inspired characterisation methods without systematically addressing their limitations, this work introduces an organised and comparative methodology to evaluate how different material characterisation techniques influence simulation outcomes. The proposed approach establishes a methodological framework that can guide future research and improve the reliability of process simulations for LSR and other polymeric systems.

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Faculty of Polymer Technology is a private non-profit higher education and research institution based in Slovenj Gradec

Faculty of Polymer Technology is a private non-profit higher education and research institution based in Slovenj Gradec. It was founded in 2006 as Polymer Technology College and was promoted to Faculty by the Slovenian Quality Assurance Agency for Higher Education in February 2017.

Its founders are companies from Slovene plastics industry (Adient Slovenj Gradec d.o.o., Grammer Automotive Slovenija d.o.o., Plastika Skaza d.o.o., Kopur d.o.o., BSH Hišni aparati d.o.o. Nazarje), Regional institutions (Municipality of Slovenj Gradec, RRA Koroška d.o.o) and Industry associations/Research organisations (GIZ Grozd Plasttehnika, TECOS - Razvojni center orodjarstva Slovenije).

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Boris Maroh, inž. tehnol. pol.
Researcher - Polymer competence center Leoben GmbH

I will always remember countless debates from all the lectures that our group of eight students attended. We were the first generation of MA students of Polymer Technology. My Master’s degree enabled me to continue my career path in polymer materials abroad, as well as to continue my studies at University of Leoben.

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Igor Skaza,, Owner and Managing Director of
Plastika Skaza d.o.o.

The services that the Faculty of Polymer Technology offers help solve the problems that we encounter in our production and development of products. They help us reach our company goals. We have been successfully cooperating for many years; they offer quality solutions and are a responsive and a reliable partner that helps us grow and fulfil our mission – to create high quality products from Eco-friendly Plastics.

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The faculty organises meetings with foreign experts and professionals, company visits, use of laboratory, and a whole list of practically oriented skills which definitely play a much more decisive role when talking to employers than the actual evaluation grades in the grade book.

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BA Student of Polymer Technology

The studies at FTPO are practically oriented and offer lectures from a range of professionals connected to the business sector as well, which quarantines high quality education for the students and enables them to have excellent employment opportunities.

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As the only academic institution focusing on polymer technology in Slovenia, Faculty of Polymer Technology bases its activities on three pillars: Education, Research and Industry cooperation. We provide our students with the necessary knowledge and skills to become innovative and competent engineers that are fit for responsible tasks in their future assignments. We support society and industry in Slovenia and beyond to cope with the increasingly competitive economic and rapidly changing technological environment by knowledge creation through innovative application oriented research on polymer materials and technologies, Know-How transfer and opportunities for life long learning. We live by our values – Responsiveness, Continuous improvement, Practical Attitude and Personal Approach – to achieve these goals.