17 4 Ph Stainless Steel Microstructure

Gas tungsten arc welding gtaw was used to cladding of 17.

17 4 ph stainless steel microstructure.

17 7 ph precipitation hardening alloys when choosing an alloy for a particular project it may be helpful to determine your criteria. The 17 4 ph stainless steel that was used in the experiment was obtained according to ams 5604. This paper deals with the investigation of the microstructure and wear behavior of the stellite 6 cladding on precipitation hardening martensitic stainless steel 17 4ph using gas tungsten arc welding gtaw method. Wrought 17 4 ph steel condition a.

1 a selective laser melting schematic and pre alloyed atomized powders. It is also known as 630 stainless steel. With a higher chromium content than 15 5 ph stainless steel this high strength 17 4 ph offers better corrosion resistance. Sheets of 1 9 mm thick metal were deep drawn to the geometry shown in fig.

To homogenize the metal the standard heat treatment was used. Stainless steels are widely used in a variety of applications such as food processing petrochemical plants and transportation industries due to their high strength and good corrosion resistance. 168 murr et al. Precipitation in 17 4 ph stainless steel begins with coherent bcc cu rich.

Bayode esther t akinlabi member iaeng and s. Microstructure and microhardness of 17 4 ph stainless steel made by laser metal deposition. Study on the microstructure and mechanical properties of 17 4 ph stainless steel depending on heat treatment and aging time. The microstructure was martensitic with a.

It is used in applications where the combination of moderate corrosion resistance and unusually high strength are required. 17 4 ph stainless steel is widely used in oil and gas industries.