Nazarian-Samani, "Microstructure evolution and mechanical behavior of a new microalloyed high Mn
austenitic steel during compressive deformation," Materials Science and Engineering A, vol.
(2009): Determining the influence of cutting fluids on tool wear and surface roughness during turning of AISI 204
austenitic steel. In: Journal of Materials Processing Technology, 209, pp.
This chart shows that there is improvement against wear when the
austenitic steel 316 is reinforced with TiC, achieving a better performance when MMC are compacted at 800 MPa.
The results of long-term industrial tests of tubes manufactured from X8CrNiNb1613
austenitic steel according to DIN 17459 in the superheater of an oil shale PF boiler are close to the results obtained at testing of widely used
austenitic steel 12Cr18Ni12Ti (OO 14-3-460-75 [2]).
Guelton, "The development of a new Fe-Mn-C
austenitic steel for automotive applications," Revue de Metallurgie, vol.
in [23, 24], when analysing with a transmission microscope (TEM) the intermetallic phases that occurred at the boundary of
austenitic steel (type 304) aluminium alloy series 5052 joints, have reported a formation of amorphous layers in the solid state at high temperatures.
(2011) On the effective reaming of
austenitic steels On the effective reaming of
austenitic steels with cermet reamers and flood cooling.
Seven
austenitic steels with various Ni and Cr content were tested.
Schafer, "Prediction of the critical conditions for dynamic recrystallization in the
austenitic steel 800H," Materials Science and Engineering A, vol.
At the same time, non-magnetic
austenitic steel becomes slightly ferromagnetic (Kurc & Stoklosa, 2010; Meszaros & Prohaszka, 2005; Ozgowicz et al., 2010).
CrNi
austenitic steel type18/8 (304, 1.4310) was used as accelerated material, defined by STN EN 10 088 standard.