论文信息 - Analysis of automotive liftgate seals using finite element analysis

Analysis of automotive liftgate seals using finite element analysis

Seals have wide application in automotive products. They are responsible for sealing the car in several parts such as the doors, the air intake cowl seal, and air intake lights seal. Strain and stress studies are very important in order to understand the behavior of polymeric materials, which are generally submitted to great workload variation and environmental influence. This study of EPDM rubber was carried out to define the strain, stress and yield stress. Tensile and compression tests were carried out on workpieces with 100 mm of length. The data were acquired using the Qmat software. A Finite Element Analysis using the MSC Marc Mentat™ was conducted and compared with experimental tests. The results showed an increase of effort proportional to bulb thickness. The proportional increase of compression effort for different displacements was significant. Moreover, physical parameters such as length, thickness, and friction coefficient changed the strain and stress rate.

L. Brandão | C. Lauro | R. Ueda

[1] Jae-Hoon Kim,et al. Finite element analysis of rubber extrusion forming process for automobile weather strip , 2008 .

[2] Károly Váradi,et al. Viscoelastic characterization of an EPDM rubber and finite element simulation of its dry rolling friction , 2008 .

[3] Seyed Mojtaba Zebarjad,et al. Dilatational shear bands in rubber-modified isotactic polypropylene , 2004 .

[4] Shiqiang Huang,et al. Morphology, rheology, and mechanical properties of dynamically cured EPDM/PP blend: Effect of curing agent dose variation , 2004 .

[5] S. Bai,et al. Microstructures and mechanical properties of polypropylene/polyamide 6/polyethelene-octene elastomer blends , 2004 .

[6] Norio Sato,et al. Recycling technology of tire rubber , 2002 .

[7] Yuksel Gur,et al. Nonlinear analysis of automotive door weatherstrip seals , 1997 .

[8] J. Karger‐Kocsis,et al. Microstructural details and the effect of testing conditions on the fracture toughness of injection-moulded poly(phenylene-sulphide) composites , 1987 .