Fiber fragmentation during processing of metallic matrix composites

Abstract: Fiber fragmentation is a problem frequently encountered during the processing of metallic matrix composites. In this study, we examine the fragmentation of continuous fibers during a common composite consolidation process based on hot pressing in an open-ended channel die with fibers aligned parallel to the die walls. During the latter stages of consolidation, flow of the matrix along the die cavity may occur such that the resulting load transfer to the fibers can cause their fracture even in the absence of be… Show more

“…Additionally, the mechanical performance of NiAl composites is also strongly affected by the remaining fiber quality after the fabrication process. This problem is particularly pronounced in sapphire-fiber reinforced NiAl composites, for which fiber damage, that is mainly fiber cracking as reported [6,10] and fiber strength degradation [10][11][12], occur during hot pressing. The extent of the fiber damage and strength degradation is sensitively dependent on interface structure and chemistry [6,[10][11][12].…”

Investigations on NiAl composites fabricated by matrix coated single crystalline Al2O3-fibers with and without hBN interlayer

“…Additionally, the mechanical performance of NiAl composites is also strongly affected by the remaining fiber quality after the fabrication process. This problem is particularly pronounced in sapphire-fiber reinforced NiAl composites, for which fiber damage, that is mainly fiber cracking as reported [6,10] and fiber strength degradation [10][11][12], occur during hot pressing. The extent of the fiber damage and strength degradation is sensitively dependent on interface structure and chemistry [6,[10][11][12].…”

Investigations on NiAl composites fabricated by matrix coated single crystalline Al2O3-fibers with and without hBN interlayer

Structure, Chemical Stability and Properties of NiAl‐Al ₂ O ₃ Interface Modified by MAX‐Phase Interlayer

Interface structure, chemistry and properties of NiAl composites fabricated from matrix-coated single-crystalline Al2O3 fibres (sapphire) with and without an hBN interlayer