Add to ORKGδ ferrite and residual stress are known to affect the corrosion behavior of AISI 304 stainless steel welds. To improve the corrosion resistance of a weld, shot peening is often carried out. This study aimed to investigate the effect of shot peening time on the residual stress evolution in both δ ferrite and γ austenite in a 304 stainless steel weld. The residual stresses of both δ and γ phases were significantly transformed from tensile to compressive after shot peening, and in addition, their surface residual stress deviations were lowered as the peening time increased. The stress versus depth profiles revealed a distinct plastic zone and an effective peening depth. The full width at half maximum (FWHM) of both phases increased as the peen...
Surface conditions of materials affect the chemical, physical and mechanical properties of stainless...
While the general characteristics of various peening techniques have been established, there have be...
Four mechanical surface treatments have been considered for the application to austenitic stainless ...
Ferritic stainless steels are used in specific applications where corrosion resistance, oxidation re...
Shot peening is a surface process commonly used in the aeronautic and automotive industries to impro...
Proceedings of ICSB1. Editor: A. Niku-Lari, X-ray diflractometry has been used to examine the variat...
Corrosion can deteriorate the material as a result of reaction with its environment. It is one of th...
Austenitic stainless steel cannot be hardened by any form of heat treatment, in fact, quenching fro...
Dry canisters used in nuclear power plants can be subject to localized corrosion, including stress c...
Abstract: This study investigates and compares the effects of different shot peening treatments incl...
Shot peening is used in many industrial applications, e.g. steam turbine blades, to induce near-surf...
Surface treatments are increasingly used to enhance fatigue resistance of metal parts by improving t...
The stress corrosion crack is one of the fracture phenomena for the major structure components in nu...
Surface conditions of materials affect the chemical, physical and mechanical properties of stainless...
While the general characteristics of various peening techniques have been established, there have be...
Four mechanical surface treatments have been considered for the application to austenitic stainless ...
Ferritic stainless steels are used in specific applications where corrosion resistance, oxidation re...
Shot peening is a surface process commonly used in the aeronautic and automotive industries to impro...
Proceedings of ICSB1. Editor: A. Niku-Lari, X-ray diflractometry has been used to examine the variat...
Corrosion can deteriorate the material as a result of reaction with its environment. It is one of th...
Austenitic stainless steel cannot be hardened by any form of heat treatment, in fact, quenching fro...
Dry canisters used in nuclear power plants can be subject to localized corrosion, including stress c...
Abstract: This study investigates and compares the effects of different shot peening treatments incl...
Shot peening is used in many industrial applications, e.g. steam turbine blades, to induce near-surf...
Surface treatments are increasingly used to enhance fatigue resistance of metal parts by improving t...
The stress corrosion crack is one of the fracture phenomena for the major structure components in nu...
Surface conditions of materials affect the chemical, physical and mechanical properties of stainless...
While the general characteristics of various peening techniques have been established, there have be...
Four mechanical surface treatments have been considered for the application to austenitic stainless ...