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Abstract

The assumption of equal tensile and compressive modulus necessary to determine single fiber axial compressive strength from the elastica loop test is relaxed by deriving a compressive strength equation based on the analysis of the flexural response of a fiber with different modulus in tension and compression. Previously determined tensile (E_1t) and compressive (E_1c ) modulus values for different high performance organic fibers with varying degrees of lateral molecular interactions are used to determine fiber compressive strength. The importance of using the bi-moduli equation becomes evident in the case of fibers that lack strong intermolecular interactions, since calculations done with the original loop test equation can result in an overestimation of the compressive strength on the order of 80%, as seen for the poly-(p-phenylene benzobisoxazole) fiber PBO. Kink band angles measured from looped fiber specimens are documented and correlated to the calculated compressive strength values.

Keywords

PIPD M5 armos aramid PBO mechanical properties microstructure strength kink band.

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References

Greenwood, J.H. and Rose, P.G. (1974). Compressive Behaviour of Kevlar 49 Fibres and Composites, Journal of Materials Science , 9: 1809-1814.

Leal, A.A. , Deitzel, J.M. and Gillespie, J.W. (2007). Assessment of Compressive Properties of High Performance Organic Fibers, Composites Science and Technology, 67: 2786-2794.

Sikkema, D.J. (1998). Design, Synthesis and Properties of a Novel Rigid Rod Polymer, PIPD or ``M5'': High Modulus and Tenacity Fibres with Substantial Compressive Strength , Polymer , 39: 5981-5986.

So, Y.H. (2000). Rigid-rod Polymers with Enhanced Lateral Interactions, Progress in Polymer Science , 25: 137-157.

Kozey, V.V. , Jiang, H. , Mehta, V.R. and Kumar, S. (1995). Compressive Behavior of Materials: Part II. High Performance Fibers, Journal of Materials Research, 10: 1044-1061.

Klop, E.A. and Lammers, M. (1998). XRD Study of the New Rigid-rod Polymer Fibre PIPD , Polymer, 39: 5987-5998.

Levchenko, A.A. , Antipov, E.M. , Plate , N.A. and Stamm, M. (1999). Comparative Analysis of Structure and Temperature Behavior of Two Copolyamides - Regular Kevlar and Statistical Armos, Macromolecular Symposia , 146: 145-151.

Sinclair, D. (1950). A Bending Method for Measurement of the Tensile Strength and Young's Modulus of Glass Fibers, Journal of Applied Physics, 21: 380-386.

Loidl, D. , Paris, O. , Burghammer, M. , Riekel, C. and Peterlik, H. (2005). Direct Observation of Nanocrystallite Buckling in Carbon Fibers under Bending Load, Physical Review Letters , 95: 225501.

10.

Lammers, M. , Klop, E.A. , Northolt, M.G. and Sikkema, D.J. (1998). Mechanical Properties and Structural Transitions in the New Rigid-rod Polymer Fibre PIPD (M5) During the Manufacturing Process , Polymer, 39: 5999-6005.

11.

Argon, A.S. (1972). In: Herman, H. (ed.), Treatise on Materials Science and Technology, Vol. 1, pp. 79-114, Academic Press, New York.

Compressive Strength Analysis for High Performance Fibers with Different Modulus in Tension and Compression

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