Structural, mechanical, and magnetic properties of ferrite–austenite mixture in evaporated 304 stainless steel thin films

“…Although the SS film has a chemical composition similar to that of the target, there is a slight variation in the atomic fraction of the elements Cr, Fe, Ni, and Mn. According to Merakeb et al, 16 the change in the film's chemical composition can be attributed to the different sputtering yields and selective sputtering, where each alloy element is adsorbed on the substrate with different atomic concentrations.…”

“…With increased substrate temperature, duplex crystal structures are formed: BCC‐Fe ferritic and FCC‐Fe austenitic. Finally, at even higher temperatures, austenitic FCC‐Fe films typically grow 16,30 …”

“…Finally, at even higher temperatures, austenitic FCC-Fe films typically grow. 16,30 Another parameter that influences the development of crystal phases in films obtained using AISI 304 and 3016 SS targets is the type of gas used as the working atmosphere. 31 In this work, SS films were obtained in an inert atmosphere containing Ar gas, and the developed crystal structure (BCC-Fe) agrees with the results obtained by España et al 32 The interactions between interfacial phases of PMH materials can be summarized in two hypotheses:…”

“…3 A metal alloy used in the metallization of polymers is AISI 304 stainless steel (SS). Merakeb et al 16 point out that, although SS alloys usually have paramagnetic characteristics, SS films obtained through MS varying the deposition temperature yield paramagnetic or ferromagnetic coatings. Lower deposition temperatures produce ferromagnetic films, while higher temperatures produce paramagnetic ones.…”

Sputtering: An eco‐friendly technique to obtain polymer‐metal hybrids

“…Although the SS film has a chemical composition similar to that of the target, there is a slight variation in the atomic fraction of the elements Cr, Fe, Ni, and Mn. According to Merakeb et al, 16 the change in the film's chemical composition can be attributed to the different sputtering yields and selective sputtering, where each alloy element is adsorbed on the substrate with different atomic concentrations.…”

“…With increased substrate temperature, duplex crystal structures are formed: BCC‐Fe ferritic and FCC‐Fe austenitic. Finally, at even higher temperatures, austenitic FCC‐Fe films typically grow 16,30 …”

“…Finally, at even higher temperatures, austenitic FCC-Fe films typically grow. 16,30 Another parameter that influences the development of crystal phases in films obtained using AISI 304 and 3016 SS targets is the type of gas used as the working atmosphere. 31 In this work, SS films were obtained in an inert atmosphere containing Ar gas, and the developed crystal structure (BCC-Fe) agrees with the results obtained by España et al 32 The interactions between interfacial phases of PMH materials can be summarized in two hypotheses:…”

“…3 A metal alloy used in the metallization of polymers is AISI 304 stainless steel (SS). Merakeb et al 16 point out that, although SS alloys usually have paramagnetic characteristics, SS films obtained through MS varying the deposition temperature yield paramagnetic or ferromagnetic coatings. Lower deposition temperatures produce ferromagnetic films, while higher temperatures produce paramagnetic ones.…”

Sputtering: An eco‐friendly technique to obtain polymer‐metal hybrids

Investigation of phase transformation for ferrite–austenite structure in stainless steel thin films