Add to ORKGSamples of AISI 304 and 316 stainless steels, initially in austenitic (first set) and martensitic states (second set) and α-Fe (third set), were implanted with 180 keV¹²C⁻ to a dose of 10¹⁷ atoms/cm² at room temperature. Surfaces were examined by SEM (scanning electron microscopy) and the crystalline-phase fractions were estimated through CEMS (conversion electron Mossbauer spectroscopy). Different grades of etching were produced by sputtering during the implantations on the stainless steel samples depending on the previous crystallographic states. CEMS data reveal the γ → α′ transformation in the initially martensitic samples and no noticeable modifications as a result of the implantation on α-Fe and austenitic samples.Facultad de Ciencias...
Commercial rolled AISI 321 stainless steel samples were irradiated with Al+ ions with an energy of 8...
Expanded austenite can be generated on austenitic stainless steels either by ion carburizing or ion ...
Nitrogen ion implantation can be used to improve surface mechanical properties (hardness, wear, fric...
Phase transformation behaviors of the austenitic 301 stainless steel was studied under Fe+, Ti+ and ...
Recent investigations have shown that ion implantation of metals at room temperature may induce diff...
AbstractThe microstructural evolution and chemistry of the ferrite phase (α), which transforms from ...
Ion implantation in steels, although largely used to improve the properties of use, involves structu...
This paper reports a microstructural investigation of the changes induced by Ne implantation in stai...
The CEMS method was used to examine and implanted layer of #alpha#-Fe with a thickness of up to 100 ...
A modified surface layers with high resistance were successfully prepared on corrosion stainless ste...
The results of experiments on low-energy implantation of AISI 321 stainless steel by nitrogen ions a...
[[abstract]]An investigation was made of proton irradiation-induced phase transformation in AISI 304...
We studied the modification of 304 stainless steel after nitrogen ion implantation. We report for th...
In this work we report a study of the structural modifications and corrosion behavior of martensitic...
Thesis (Master)--Izmir Institute of Technology, Physics, Izmir, 2014Includes bibliographical referen...
Commercial rolled AISI 321 stainless steel samples were irradiated with Al+ ions with an energy of 8...
Expanded austenite can be generated on austenitic stainless steels either by ion carburizing or ion ...
Nitrogen ion implantation can be used to improve surface mechanical properties (hardness, wear, fric...
Phase transformation behaviors of the austenitic 301 stainless steel was studied under Fe+, Ti+ and ...
Recent investigations have shown that ion implantation of metals at room temperature may induce diff...
AbstractThe microstructural evolution and chemistry of the ferrite phase (α), which transforms from ...
Ion implantation in steels, although largely used to improve the properties of use, involves structu...
This paper reports a microstructural investigation of the changes induced by Ne implantation in stai...
The CEMS method was used to examine and implanted layer of #alpha#-Fe with a thickness of up to 100 ...
A modified surface layers with high resistance were successfully prepared on corrosion stainless ste...
The results of experiments on low-energy implantation of AISI 321 stainless steel by nitrogen ions a...
[[abstract]]An investigation was made of proton irradiation-induced phase transformation in AISI 304...
We studied the modification of 304 stainless steel after nitrogen ion implantation. We report for th...
In this work we report a study of the structural modifications and corrosion behavior of martensitic...
Thesis (Master)--Izmir Institute of Technology, Physics, Izmir, 2014Includes bibliographical referen...
Commercial rolled AISI 321 stainless steel samples were irradiated with Al+ ions with an energy of 8...
Expanded austenite can be generated on austenitic stainless steels either by ion carburizing or ion ...
Nitrogen ion implantation can be used to improve surface mechanical properties (hardness, wear, fric...