Tribological Study of Polymer Composite Forming Using Model Experiments and Real Composites

Olga Smerdova; Michael P.F. Sutcliffe

doi:10.4028/www.scientific.net/KEM.611-612.300

Paper Titles

A Computational Approach Based on Flow Front Shape Dynamic Behavior for the Process Characterization during Filling in Liquid Resin Infusion
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Investigation of the Spring-In of a Pultruded L-Shaped Profile for Various Processing Conditions and Thicknesses
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An Integral Mesoscopic Material Characterization Approach
p.280

Locking and Stability of 3D Woven Composite Reinforcements
p.292

Tribological Study of Polymer Composite Forming Using Model Experiments and Real Composites
p.300

A Robust Monolithic Approach for Resin Infusion Based Process Modelling
p.306

Analysis of Composite Reinforcement at Mesoscopic Scale from X-Ray Microtomography
p.316

Application of a Discrete Mesoscopic Finite Element Approach to Investigate the Bending and Folding of Fiber-Reinforced Composite Materials during the Manufacturing Process
p.324

Investigation of the Mechanical Properties of a Stitched Triaxial Fabric
p.332

HomeKey Engineering MaterialsKey Engineering Materials Vols. 611-612Tribological Study of Polymer Composite Forming...

Tribological Study of Polymer Composite Forming Using Model Experiments and Real Composites

Abstract:

This experimental study is focused on identification of tribological mechanisms acting during forming of polymer composites. The range of relevant processes includes fibre placement, tape lay-up, moulding, draping, and RTM. Two types of tribological experiments, relying both on simultaneous application of compression and shear loadings, are carried out. Firstly, model macromechanical tests are undertaken on plastic rods of millimetric diameter immersed in a viscous liquid, representing composite fibres and matrix, respectively. By careful simulation of forming conditions, this experiment helps to identify the friction phenomena occurring in real composites. On the other hand, the micromechanics of forming processes is studied through a microscopic experiment on real carbon fabric. This material is clamped between two glass plates and pulled in opposing directions in the plane of the fabric. It is hypothesized that the evolution of contact area due to shearing that can be measured in this experiment is an essential feature of the tribology of forming processes, a topic which hitherto has not been investigated.

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Periodical:

Key Engineering Materials (Volumes 611-612)

Pages:

300-305

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.611-612.300

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Online since:

May 2014

Authors:

Olga Smerdova*, Michael P.F. Sutcliffe

Keywords:

Carbon Fabric, Composite Forming, Friction, Tribology

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