Add to ORKGThe oxidation crack healing of Cr2AlC and Cr2(Al,Si)C was studied and compared with known healing of Ti2AlC. The oxidation induced crack healing of Ti2AlC is relatively fast and leads to full strength recovery, but the oxidation product contains besides ?-Al2O3 also undesired TiO2. However, when oxidizing Cr2AlC only ?-Al2O3 is formed, but full crack healing is relatively slow. The efficiency of the oxidation induced crack healing of Cr2AlC is enhanced if Al is partially replaced by Si atoms
Earlier work [1] has shown that metallo-ceramic MAX phase materials, such as Ti3AlC2, not only have...
The reduction of maintenance and replacement work costs is an important driving force in the develop...
Self-healing materials allow for a design concept based on damage management where damage that is in...
The oxidation crack healing of Cr2AlC and Cr2(Al,Si)C was studied and compared with known healing of...
Crack healing of Ti3AlC2 was investigated by oxidizing a partially pre-cracked sample. A crack near ...
MAX phase materials such as Ti3AlC2, Ti2AlC and Cr2AlC are very attractive materials in their own ri...
This work concentrates on revealing the oxidation-induced healing performance of Ti2AlC. The microst...
The excellent mechanical properties in combination with the capability to autonomously repair microc...
The excellent mechanical properties in combination with the capability to autonomously repair microc...
In this work, the oxidation-induced crack healing of Al2O3 containing 20 vol.% of Ti2AlC MAX phase i...
The reduction of maintenance and replacement work costs is an important driving force in the develop...
The reduction of maintenance and replacement work costs is an important driving force in the develop...
Although the crack-healing capacity of Ti2AlC ceramics has been sufficiently studied, the ability of...
A method for a significant improvement of the self-healing efficiency of Cr2AlC ceramic via pre-oxid...
Closure of surface cracks by self-healing of conventional and MAX phase ceramics under realistic tur...
Earlier work [1] has shown that metallo-ceramic MAX phase materials, such as Ti3AlC2, not only have...
The reduction of maintenance and replacement work costs is an important driving force in the develop...
Self-healing materials allow for a design concept based on damage management where damage that is in...
The oxidation crack healing of Cr2AlC and Cr2(Al,Si)C was studied and compared with known healing of...
Crack healing of Ti3AlC2 was investigated by oxidizing a partially pre-cracked sample. A crack near ...
MAX phase materials such as Ti3AlC2, Ti2AlC and Cr2AlC are very attractive materials in their own ri...
This work concentrates on revealing the oxidation-induced healing performance of Ti2AlC. The microst...
The excellent mechanical properties in combination with the capability to autonomously repair microc...
The excellent mechanical properties in combination with the capability to autonomously repair microc...
In this work, the oxidation-induced crack healing of Al2O3 containing 20 vol.% of Ti2AlC MAX phase i...
The reduction of maintenance and replacement work costs is an important driving force in the develop...
The reduction of maintenance and replacement work costs is an important driving force in the develop...
Although the crack-healing capacity of Ti2AlC ceramics has been sufficiently studied, the ability of...
A method for a significant improvement of the self-healing efficiency of Cr2AlC ceramic via pre-oxid...
Closure of surface cracks by self-healing of conventional and MAX phase ceramics under realistic tur...
Earlier work [1] has shown that metallo-ceramic MAX phase materials, such as Ti3AlC2, not only have...
The reduction of maintenance and replacement work costs is an important driving force in the develop...
Self-healing materials allow for a design concept based on damage management where damage that is in...