Inhalt

[ 479AMMEESMK12 ] KV (*)Engineering with Soft Materials

Versionsauswahl
(*) Leider ist diese Information in Deutsch nicht verfügbar.
Workload Ausbildungslevel Studienfachbereich VerantwortlicheR Semesterstunden Anbietende Uni
3 ECTS M1 - Master 1. Jahr Kunststofftechnik Zoltan Major 2 SSt Johannes Kepler Universität Linz
Detailinformationen
Quellcurriculum Masterstudium Polymer Engineering and Science 2025W
Lernergebnisse
Kompetenzen
(*)Students are able to differentiate technical elastomers from all other soft materials and, based on hyperelastic material models (entropy elasticity), independently apply the general design guidelines for elastomeric components and applications. Based on this, students can analyze technical problems and evaluate the results.

Fertigkeiten Kenntnisse
(*)Specifically, they are able to:

Identify key structure-property relationships of technical elastomers and derive the hyperelastic material model parameters [k1, k4].

Explain and apply viscoelasticity in relation to entropy elasticity (rubber elasticity) [k1, k3].

Evaluate elastomeric components according to the general design guidelines [k5].

(*)The Chapters “Rubber, Elastomer and Compound” and “Design of components” are from Gent, Alan N. (Engineering with rubber: how to design rubber components. Carl Hanser Verlag GmbH Co KG, 2012). The “Elasticity” description is mainly based on Buckley’s contribution on “Experimental Methods for Rubberlike Solids” within “Mechanics and thermomechanics of rubberlike solids” (Springer, 2004) edited by Saccomandi and Ogden. The constitutive models are extended based on Charlton, Yang, and Teh ("A review of methods to characterize rubber elastic behavior for use in finite element analysis." Rubber chemistry and technol-ogy 67.3 (1994): 481-503). “Dynamic Thermomechanical Analysis” chapter is a summary of a literature review including some experimental data of the lecturer.

Beurteilungskriterien (*)Written exam
Lehrmethoden (*)The course content is acquired either through lectures or self-study. Additionally, in practical sessions [group work], the acquired knowledge is combined with skills and transformed into solution-oriented competencies.
Abhaltungssprache Englisch
Literatur (*)Lecture Note
The Chapters “Rubber, Elastomer and Compound” and “Design of components” are from Gent, Alan N. (Engineering with rubber: how to design rubber components. Carl Hanser Verlag GmbH Co KG, 2012). The “Elasticity” description is mainly based on Buckley’s contribution on “Experimental Methods for Rubberlike Solids” within “Mechanics and thermome-chanics of rubberlike solids” (Springer, 2004) edited by Saccomandi and Ogden. The constitutive models are extended based on Charlton, Yang, and Teh ("A review of methods to characterize rubber elastic behavior for use in finite element analysis." Rubber chemistry and technology 67.3 (1994): 481-503). “Dynamic Thermomechanical Analysis” chapter is a summary of a literature review including some experimental data of the lecturer.
Lehrinhalte wechselnd? Nein
Sonstige Informationen (*)
  • Acquisition of basic knowledge of technical elastomers
  • Understanding hyperelastic material models
  • Knowledge of the general design and dimensioning principles for technical elastomers
Äquivalenzen (*)700PPENESMK11: KV Engineering with Soft Materials (3 ECTS)
Präsenzlehrveranstaltung
Teilungsziffer 35
Zuteilungsverfahren Zuteilung nach Vorrangzahl