The lifetime of most metals is limited by cyclic loads, ending in fatigue failure. The progressive growth of cracks ends up in catastrophic failure. An advanced method is presented for the determination of cyclic crack growth on the microscale using a nanoindenter, which allows the characterization of > 10,000 loading cycles. It uses focused ion beam fabricated notched microcantilevers. The method has been validated by cyclic bending metallic glass and tungsten microcantilevers. The experiments reveal a stable crack growth during the lifetime of both samples. The metallic glass shows less plasticity due to the absence of dislocations, but shows shearing caused by the deformation. The crack growth rates determined in the tests follow Paris' ...
The present paper describes a novel experimental technique recently presented that allows one to stu...
This Letter presents a quantitative in situ scanning electron microscope (SEM) nanoscale high and ve...
The present paper describes a novel experimental technique recently presented that allows one to stu...
The lifetime of most metals is limited by cyclic loads, ending in fatigue failure. The progressive g...
This data publication contains the results of microcantilever fatigue tests on a metallic glass and ...
More than half of all mechanical failures in engineering structures are classified as fatigue failu...
Background: The trend in miniaturisation of structural components and continuous development of more...
AbstractCyclic nanoindentation loading is a localized fatigue test providing very useful information...
It is known that grain boundaries with differing chemistry, misorientation and structure have varyin...
Experimental fracture mechanics at the microscale became an indispensable tool for understanding and...
The process zone or plastic zone around a loaded crack tip can significantly influence the fracture ...
AbstractIn contrast to monotonic load studies, the engagement with a cyclic time dependent processes...
AbstractPolycrystalline tungsten at room temperature shows a brittle fracture behavior, which is als...
In this paper, we propose a new experimental method to investigate the fatigue crack growth mechanis...
The present work demonstrates a micromechanical technique to investigate the low cycle fatigue (LCF)...
The present paper describes a novel experimental technique recently presented that allows one to stu...
This Letter presents a quantitative in situ scanning electron microscope (SEM) nanoscale high and ve...
The present paper describes a novel experimental technique recently presented that allows one to stu...
The lifetime of most metals is limited by cyclic loads, ending in fatigue failure. The progressive g...
This data publication contains the results of microcantilever fatigue tests on a metallic glass and ...
More than half of all mechanical failures in engineering structures are classified as fatigue failu...
Background: The trend in miniaturisation of structural components and continuous development of more...
AbstractCyclic nanoindentation loading is a localized fatigue test providing very useful information...
It is known that grain boundaries with differing chemistry, misorientation and structure have varyin...
Experimental fracture mechanics at the microscale became an indispensable tool for understanding and...
The process zone or plastic zone around a loaded crack tip can significantly influence the fracture ...
AbstractIn contrast to monotonic load studies, the engagement with a cyclic time dependent processes...
AbstractPolycrystalline tungsten at room temperature shows a brittle fracture behavior, which is als...
In this paper, we propose a new experimental method to investigate the fatigue crack growth mechanis...
The present work demonstrates a micromechanical technique to investigate the low cycle fatigue (LCF)...
The present paper describes a novel experimental technique recently presented that allows one to stu...
This Letter presents a quantitative in situ scanning electron microscope (SEM) nanoscale high and ve...
The present paper describes a novel experimental technique recently presented that allows one to stu...