Kamen Tushtev scite author profile

The mechanical behavior of the novel fiber CeraFib75 after various thermal exposures is examined. This fully crystalline mullite fiber was developed to exceed the thermal stability of commercially available oxide fibers. Therefore, heat treatments at temperatures ranging from 1000°C to 1400°C for 25 h were performed and results compared to the well-established Nextel TM 720 fibers. Mechanical characterization was realized with bundle tensile tests using acoustic emission sensors to determinate the fiber failure distributions. Investigations showed that the initial fiber microstructure of mullite grains with traces of alumina transforms starting at 1200°C. Changes include dissociation of the alumina-rich mullite phase and grain growth. Thus, strength reduction is measured as a result of these microstructure transformations. Remarkably, at 1400°C, fibers become more fragile and Weibull statistics can no longer describe the failure distribution. A relation between the distribution shape and the load redistribution capability of fibers is suggested. This is more pronounced for Nextel TM 720 fibers, which present much bigger grains and retain only 10% of their original strength. However, CeraFib75 fibers are more stable and exhibit a strength retention of 50% at the same conditions, which is attributed to the higher amount of mullite phase.

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Improvement of sound absorption and flexural compliance of porous alumina-mullite ceramics by engineering the microstructure and segmentation into topologically interlocked blocks

Carlesso

Giacomelli

Krause

et al. 2013

Journal of the European Ceramic Society

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On the nature of the stiffness of nacre

Tushtev

Murck

Grathwohl

2008

Materials Science and Engineering: C

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Kamen Tushtev

Assessment of three oxide/oxide ceramic matrix composites: Mechanical performance and effects of heat treatments

Ceramic fiber composites: Experimental analysis and modeling of mechanical properties

Thermal Exposure Effects on the Strength and Microstructure of a Novel Mullite Fiber

Improvement of sound absorption and flexural compliance of porous alumina-mullite ceramics by engineering the microstructure and segmentation into topologically interlocked blocks

On the nature of the stiffness of nacre

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