Characterization of the deformation and rupture behaviour of silicone elastomers for airbag applications
Research output: Thesis › Diploma Thesis
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2006.
Research output: Thesis › Diploma Thesis
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TY - THES
T1 - Characterization of the deformation and rupture behaviour of silicone elastomers for airbag applications
AU - Schwarz, Andreas Johann
N1 - no embargo
PY - 2006
Y1 - 2006
N2 - In this scientific work on hand two apparently similar types of liquid silicone rubber (LSR) for membrane applications were being characterized mechanically and compared. For a first, basic characterization of the uncured materials, Shore A hardness, uniaxial tensile and compression tests were performed. Using an adapted proposition, a friction-free stress-strain diagram was evaluated for the compression behaviour. A one-camera experimental set-up in combination with bubble inflation tests was used to analyse equi-biaxial data. Based on the mechanical tests hyperelastic material laws were determined using a fitting procedure in a finite element code. For both materials a short-term postcuring at high temperatures was assessed with the aim of stabilizing their mechanical properties. The effects of an additional thermal curing at 90° C over a time period of 3000 hours were investigated. The results of both the mechanical haracterization and the thermal curing showed a significant difference between either materials selected.
AB - In this scientific work on hand two apparently similar types of liquid silicone rubber (LSR) for membrane applications were being characterized mechanically and compared. For a first, basic characterization of the uncured materials, Shore A hardness, uniaxial tensile and compression tests were performed. Using an adapted proposition, a friction-free stress-strain diagram was evaluated for the compression behaviour. A one-camera experimental set-up in combination with bubble inflation tests was used to analyse equi-biaxial data. Based on the mechanical tests hyperelastic material laws were determined using a fitting procedure in a finite element code. For both materials a short-term postcuring at high temperatures was assessed with the aim of stabilizing their mechanical properties. The effects of an additional thermal curing at 90° C over a time period of 3000 hours were investigated. The results of both the mechanical haracterization and the thermal curing showed a significant difference between either materials selected.
KW - Silikon Elastomer mechanische Charakterisierung finite Elemente Materialgesetz Nachbehandlung
KW - silicone elastomer mechanical characterization finite elements material law postcuring
M3 - Diploma Thesis
ER -