Abstract

The chemically induced embrittlement of polyamide 11 (PA11) has been the subject of a considerable research effort to understand and predict the degree of embrittlement based on the material's intrinsics. However, the presence of highly complex loading scenarios and stress states in real-world structures raises the question of whether extrinsic factors such as loading conditions and temperature also affect the mechanical response of the degraded material. Motivated by this, this study investigates how the large-strain tensile response of chemically degraded PA11 is influenced by temperature, strain rate and stress triaxiality. Material samples with plasticizer contents of 0% and 6% were chemically degraded by exposure to butanoic acid at elevated temperature. The mechanical properties were determined by tensile testing of round notched samples while measuring local strains using digital image correlation. The mechanical responses span from highly ductile behaviour with necking and subsequent cold-drawing to a brittle response without any apparent plasticity. Reduced ductility was found for increasing degradation, amplified when the temperature, the notch radius or the softener content was reduced. A comparison of local and nominal strains showed that large local strains could be present even on samples which appear brittle when only nominal strains are measured. This study demonstrates that both a brittle and a ductile response can be obtained for the same state of chemical degradation by varying the loading conditions.

Highlights

  • Polyamide 11 (PA11) is a semi-crystalline polymer extensively used in a wide range of applications, spanning from sports equipment to oil pipelines

  • The average molecular weight is often reported as the corrected inherent viscosity (CIV), a metric used in API TR 17TR2 [3]

  • We investigate the influence of temperature, strain rate and stress triaxiality on the tensile response of PA11 with two plasticizer contents degraded to two CIV levels

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Summary

Introduction

Polyamide 11 (PA11) is a semi-crystalline polymer extensively used in a wide range of applications, spanning from sports equipment to oil pipelines. The amorphous phase, being the phase where the chain scission process is anticipated to be most prom­ inent, has a strong influence on the mechanical behaviour of semi-crystalline polymers, including the elastic properties, rate-sensitivity, hardening and locking behaviour, and thereby the ductility in general [12,13]. Another factor influencing the response of the material is the pres­ ence of plasticizers, referred to as softeners. Due to the numbers of parameters, a two-factor experimental design was employed for identification of the parameters with the largest impact on the tensile response of the material, thereby disclosing the experimental conditions that lead to a more brittle behaviour of degraded PA11

Experimental design
Material degradation and analysis
Mechanical testing
Factor analysis
Results and discussion
Three response regimes
The influence of loading conditions
Conclusion
Full Text
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