The benefits of cryogenic cooling by liquid nitrogen in cutting of titanium alloys have often been evaluated as a comparison to dry machining conditions. However, it is more interesting to quantitatively assess the performance of cryogenic conditioning of the process with respect to standard industrial conditions, that is, with respect to flood emulsion cooling. The technical and scientific literature is scarce and somehow contradictory, especially in terms of cutting forces and coefficient of friction. The aim of this article is to enrich the common base of experimental data, by conducting a comparison of traditional and cryogenic turning of Ti6Al4V in a region of cutting parameters particularly relevant to the aerospace industry, wh...
Titanium alloys have been attracting interest in aerospace industries because of their high strength...
Titanium alloys are extensively used in aerospace and medical industries. About 15% of modern civil ...
In this paper, the results of an experimental campaign of cryogenic milling are presented and discus...
The benefits of cryogenic cooling by liquid nitrogen in cutting of titanium alloys have often been e...
Due to their poor machinability, titanium alloys need to be worked at low cutting speeds to prevent ...
Titanium alloys, mainly because of their poor thermal conductivity, need to be cut at relatively low...
The use of cryogenic coolant in metal cutting has received renewed recent attention because liquid n...
Titanium alloys are widely used in aerospace applications due to their physical and mechanical prope...
Cryogenic machining is an environmentally friendly process; liquid nitrogen (LN2) is sprayed onto cu...
Titanium alloys are one of the materials extensively used in the aerospace industry due to its excel...
This study focuses on the optimization of the machining assisted by cryogenic cooling. The main obje...
Cryogenic-based machining has been drawing attention for machining hard metals and super alloys such...
Titanium alloys have been attracting interest in aerospace industries because of their high strength...
Titanium alloys are extensively used in aerospace and medical industries. About 15% of modern civil ...
In this paper, the results of an experimental campaign of cryogenic milling are presented and discus...
The benefits of cryogenic cooling by liquid nitrogen in cutting of titanium alloys have often been e...
Due to their poor machinability, titanium alloys need to be worked at low cutting speeds to prevent ...
Titanium alloys, mainly because of their poor thermal conductivity, need to be cut at relatively low...
The use of cryogenic coolant in metal cutting has received renewed recent attention because liquid n...
Titanium alloys are widely used in aerospace applications due to their physical and mechanical prope...
Cryogenic machining is an environmentally friendly process; liquid nitrogen (LN2) is sprayed onto cu...
Titanium alloys are one of the materials extensively used in the aerospace industry due to its excel...
This study focuses on the optimization of the machining assisted by cryogenic cooling. The main obje...
Cryogenic-based machining has been drawing attention for machining hard metals and super alloys such...
Titanium alloys have been attracting interest in aerospace industries because of their high strength...
Titanium alloys are extensively used in aerospace and medical industries. About 15% of modern civil ...
In this paper, the results of an experimental campaign of cryogenic milling are presented and discus...