Add to ORKGThis work systematically studied morphology of nano- and microstructures in primary and secondary shear zones of machining chips produced with two different machining methods: conventional and ultrasonically assisted turning. Electron backscatter diffraction and transmission electron microscopy showed that chips had similar microstructures for both machining techniques. The nanostructure in secondary shear zones was less homogeneous than that in primary shear zones. In addition, a heavily deformed layer was formed in a subsurface of Ti-15V-3Cr-3Al-3Sn work-pieces, replicating the microstructure of secondary shear zones of the machining chips, and elongated nanocrystalline grains in this layer were aligned with a tangential direction of turn...
Titanium alloys are known to produce shear-localized chips during machining, resulting in cyclic var...
AbstractTitanium–5Al–5Mo–5V–3Cr–0.5Fe (Ti-5553) is a recently developed modification of Russian Ti a...
Development of microstructure in chips during machining of Grade 2 titanium at different cutting spe...
New metastable β titanium alloys are receiving increasing attention due to their excellent biom...
New metastable β titanium alloys are receiving increasing attention due to their excellent biomechan...
New metastable β titanium alloys are receiving increasing attention due to their excellent biomechan...
Severe plastic deformation (SPD) processing such as equal channel angular extrusion (ECAE) has been ...
During the traditional manufacturing route, there are large amount of titanium alloys wasted in the ...
Titanium alloys, largely used for aeronautical applications, are difficult to machine. High cutting ...
Metastable β-titanium alloys such as Ti 15V 3Al 3Cr 3Sn are of great technological interest thanks t...
Development of microstructure in chips during machining of Grade 2 titanium at different cutting spe...
In recent years, many titanium alloys have emerged, each of them associated with a range of differen...
Rapid advancements in power generation and aviation industries have witnessed a widespread use of ti...
For ultrafine grained materials (containing microstructures of 100-300 nm) to be manufactured and us...
The chips produced while machining titanium alloys (Ti-alloys) exhibit a distinctive behaviour. The ...
Titanium alloys are known to produce shear-localized chips during machining, resulting in cyclic var...
AbstractTitanium–5Al–5Mo–5V–3Cr–0.5Fe (Ti-5553) is a recently developed modification of Russian Ti a...
Development of microstructure in chips during machining of Grade 2 titanium at different cutting spe...
New metastable β titanium alloys are receiving increasing attention due to their excellent biom...
New metastable β titanium alloys are receiving increasing attention due to their excellent biomechan...
New metastable β titanium alloys are receiving increasing attention due to their excellent biomechan...
Severe plastic deformation (SPD) processing such as equal channel angular extrusion (ECAE) has been ...
During the traditional manufacturing route, there are large amount of titanium alloys wasted in the ...
Titanium alloys, largely used for aeronautical applications, are difficult to machine. High cutting ...
Metastable β-titanium alloys such as Ti 15V 3Al 3Cr 3Sn are of great technological interest thanks t...
Development of microstructure in chips during machining of Grade 2 titanium at different cutting spe...
In recent years, many titanium alloys have emerged, each of them associated with a range of differen...
Rapid advancements in power generation and aviation industries have witnessed a widespread use of ti...
For ultrafine grained materials (containing microstructures of 100-300 nm) to be manufactured and us...
The chips produced while machining titanium alloys (Ti-alloys) exhibit a distinctive behaviour. The ...
Titanium alloys are known to produce shear-localized chips during machining, resulting in cyclic var...
AbstractTitanium–5Al–5Mo–5V–3Cr–0.5Fe (Ti-5553) is a recently developed modification of Russian Ti a...
Development of microstructure in chips during machining of Grade 2 titanium at different cutting spe...