Effect of thermal history on mechanical properties of polyetheretherketone below the glass transition temperature

The influence of a compatibilizer on the thermal and dynamic mechanical properties of PEEK/carbon nanotube composites Díez-Pascual, A. M.; Naffakh, M.; Gómez, M. A.; Marco, C.; Ellis, G.; González-Domínguez, J. M.; Ansón, A; Martínez, M. T.; Martínez-Rubi, Y.; Simard, B.; Ashrafi, B. AbstractThe effect of polyetherimide (PEI) as a compatibilizing agent on the morphology, thermal, electrical and dynamic mechanical properties of poly(ether ether ketone) (PEEK)/single-walled carbon nanotube (SWCNT) nanocomposites, has been investigated for different CNT loadings. After a pre-processing step based on ball milling and pre-mixing under mechanical treatment in ethanol, the samples were prepared by melt extrusion. A more homogeneous distribution of the CNTs throughout the matrix is found for composites containing PEI, as revealed by scanning electron microscopy. Thermogravimetric analysis demonstrates an increase in the matrix degradation temperatures under dry air and nitrogen atmospheres with the addition of SWCNTs; the level of thermal stability of these nanocomposites is maintained when PEI is incorporated. Both differential scanning calorimetry and synchrotron x-ray scattering studies indicate a slight decrease in the crystallization temperatures of the compatibilized samples, and suggest the existence of reorganization phenomena during the heating, which are favoured in the composites incorporating the compatibilizer, due to their smaller crystal size. Dynamic mechanical studies show an increase in the glass transition temperature of the nanocomposites upon the addition of PEI. Furthermore, the presence of PEI causes an enhancement in the storage modulus, and hence in the rigidity of these systems, attributed to an improved interfacial adhesion between the reinforcement and the matrix. The electrical and thermal conductivities of these composites decrease with the incorporation of PEI. Overall, the compatibilized samples exhibit improved properties and are promising for their use in industrial applications.

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“…• C), attributed to the β relaxation [45], associated with local motions of the ketone groups, and an intense sharp peak (at 148.3…”

Section: Dynamic Mechanical Propertiesmentioning

confidence: 99%

The influence of a compatibilizer on the thermal and dynamic mechanical properties of PEEK/carbon nanotube composites

Díez‐Pascual¹,

Naffakh²,

Gómez³

et al. 2009

Nanotechnology

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“…The early reports of this technique by Cebe [51] and Chalmers [49] has been refined by Jones and Legras [52] who have shown that PEEK crystallinity can be evaluated by comparing the absorbance area ratio of the 947 cm −1 band to the 1,011 or 952 cm −1 reference bands. Although these three methods have been widely used to examine the morphology of PEEK and its composites, the reader should be aware that such data may be subject to systematic biases, and hence must be interpreted with caution.…”

Section: Crystalline Structure Morphology and Thermal Transitionsmentioning

confidence: 99%

PEEK biomaterials in trauma, orthopedic, and spinal implants

Kurtz

Devine²

2007

Biomaterials

1,983

1,518

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Since the 1980s, polyaryletherketones (PAEKs) have been increasingly employed as biomaterials for trauma, orthopedic, and spinal implants. We have synthesized the extensive polymer science literature as it relates to structure, mechanical properties, and chemical resistance of PAEK biomaterials. With this foundation, one can more readily appreciate why this family of polymers will be inherently strong, inert, and biocompatible. Due to its relative inertness, PEEK biomaterials are an attractive platform upon which to develop novel bioactive materials, and some steps have already been taken in that direction, with the blending of HA and TCP into sintered PEEK. However, to date, blended HA-PEEK composites have involved a trade-off in mechanical properties in exchange for their increased bioactivity. PEEK has had the greatest clinical impact in the field of spine implant design, and PEEK is now broadly accepted as a radiolucent alternative to metallic biomaterials in the spine community. For mature fields, such as total joint replacements and fracture fixation implants, radiolucency is an attractive but not necessarily critical material feature.

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“…PEEK is a semi-crystalline thermoplastic polymer with excellent thermal and chemical stability [10], currently used in a wide range of applications [11], especially for the automobile and aerospace industries. Since its commercialization in 1981, many studies have been reported on the structural [12], thermal [13] and mechanical [14] characterization of this high-performance thermoplastic material. In the literature there are many reports related to the integration of SWCNTs into polymer matrices [15,16], but only a few papers deal with such composites with a PEEK matrix; the most relevant being those published by Shaffer and co-workers [17,18], working with carbon nanofibres/PEEK composites and by Baaba et al [19], dealing with multi-walled nanotubes functionalized with sulfonated PEEK.…”

mentioning

confidence: 99%

Development and characterization of PEEK/carbon nanotube composites

Díez‐Pascual

Naffakh

Gómez

et al. 2009

Carbon

181

131

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New poly(ether ether ketone) (PEEK) based composites have been fabricated by the incorporation of single-walled carbon nanotubes (SWCNTs) using melt processing. Their structure, morphology, thermal and mechanical properties have been investigated. Scanning electron microscopy observations demonstrated a more uniform distribution of the CNTs for samples prepared following a processing route based on polymer ball milling and CNT dispersion in ethanol media. Thermogravimetric analysis indicated a remarkable improvement in the thermal stability of the matrix by the incorporation of SWCNTs. Differential scanning calorimetry showed a decrease in the crystallization temperature with increasing SWCNT content, whilst no significant changes were observed in the melting of the composites. The

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Effect of thermal history on mechanical properties of polyetheretherketone below the glass transition temperature

Cited by 115 publications

References 2 publications

The influence of a compatibilizer on the thermal and dynamic mechanical properties of PEEK/carbon nanotube composites

The influence of a compatibilizer on the thermal and dynamic mechanical properties of PEEK/carbon nanotube composites

PEEK biomaterials in trauma, orthopedic, and spinal implants

Development and characterization of PEEK/carbon nanotube composites

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