Add to ORKGThe phenomenon of high strength in steel, induced by copper precipitate, was investigated using a combination of metallographic and microscopic techniques in conjunction with the determination of mechanical properties. It was observed that the presence of copper precipitate during the aging process increased the strength of the steel from 495 MPa to 526 MPa. The investigation confirmed that copper is a viable element to be used to increase the strength of steel for structural application
This thesis reports a detailed investigation of the precipitation hardening response of a series of ...
For many years, copper bearing steels’ usage in steel industry was limited by copper’s detrimental e...
An attempt has been made to highlight the influence of precipitation and microstructural constituent...
The phenomenon of high strength in steel, induced by copper precipitate, was investigated using a co...
In this study, a certain amount of Cu was added into tentative steel to introduce novel Cu-rich nano...
Copper is often used in steel powder metallurgy due to its significant strengthening effect. The lar...
On ageing at different temperatures a various combination of properties has been obtained for this C...
Copper being one of the major intrinsic residual impurities in steel possesses the tendency to induc...
Two Z-phase strengthened test steels with similar chemical composition were studied. The main differ...
Two Z-phase strengthened test steels with similar chemical composition were studied. The main differ...
We describe here the precipitation behavior of copper and fine-scale carbides during thermo-mechanic...
The material investigations presented confirm the results of earlier MPA investigations that the ser...
Abstract Low carbon ferritic steel alloyed with Ti, Mo and Cu was hot rolled and interrupt cooled to...
Magnetic and mechanical properties were evaluated for various heat-treated Cu-strengthened HSLA-100 ...
The strengthening effects of Cu and Mn were studied in steels, which contained 0.2% C and were micro...
This thesis reports a detailed investigation of the precipitation hardening response of a series of ...
For many years, copper bearing steels’ usage in steel industry was limited by copper’s detrimental e...
An attempt has been made to highlight the influence of precipitation and microstructural constituent...
The phenomenon of high strength in steel, induced by copper precipitate, was investigated using a co...
In this study, a certain amount of Cu was added into tentative steel to introduce novel Cu-rich nano...
Copper is often used in steel powder metallurgy due to its significant strengthening effect. The lar...
On ageing at different temperatures a various combination of properties has been obtained for this C...
Copper being one of the major intrinsic residual impurities in steel possesses the tendency to induc...
Two Z-phase strengthened test steels with similar chemical composition were studied. The main differ...
Two Z-phase strengthened test steels with similar chemical composition were studied. The main differ...
We describe here the precipitation behavior of copper and fine-scale carbides during thermo-mechanic...
The material investigations presented confirm the results of earlier MPA investigations that the ser...
Abstract Low carbon ferritic steel alloyed with Ti, Mo and Cu was hot rolled and interrupt cooled to...
Magnetic and mechanical properties were evaluated for various heat-treated Cu-strengthened HSLA-100 ...
The strengthening effects of Cu and Mn were studied in steels, which contained 0.2% C and were micro...
This thesis reports a detailed investigation of the precipitation hardening response of a series of ...
For many years, copper bearing steels’ usage in steel industry was limited by copper’s detrimental e...
An attempt has been made to highlight the influence of precipitation and microstructural constituent...