KINETICS OF PRECIPITATION AND DISSOLUTION IN MODEL FeCV AND FeCVNb ALLOY, AND A MICROALLOYED ULTRA HIGH STRENGTH SPRING STEEL. Acevedo, D., Perez, M., Epicier, T., Kozeschnik, E., Perrard, F., & Sourmail, T. In NEW DEVELOPMENTS ON METALLURGY AND APPLICATIONS OF HIGH STRENGTH STEELS: BUENOS AIRES 2008, VOLS 1 AND 2, PROCEEDINGS,, pages 987+, 184 THORN HILL RD, WARRENDALE, PA 15086-7514 USA, Unknown Region, 2008. MINERALS, METALS & MATERIALS SOC.
KINETICS OF PRECIPITATION AND DISSOLUTION IN MODEL FeCV AND FeCVNb ALLOY, AND A MICROALLOYED ULTRA HIGH STRENGTH SPRING STEEL [link]Paper  abstract   bibtex   
Precipitation kinetics were studied in two model alloys and an industrial spring steel. A combination of selected techniques was used to follow the evolution of precipitates volume fraction and size distribution during austenitisation (FeVC and FeNbVC). This was then modelled, first using a simple model based on the classical nucleation theory and diffusion controlled growth and second with the help of a more complex software developped by one of the authors (MatCalc). A good agreement is obtained when comparing calculations and experimental results obtained on the model alloys. This is less so for the industrial alloy, where dissolution kinetics appear to be faster than expected.
@inproceedings{acevedo_kinetics_2008,
	address = {184 THORN HILL RD, WARRENDALE, PA 15086-7514 USA, Unknown Region},
	title = {{KINETICS} {OF} {PRECIPITATION} {AND} {DISSOLUTION} {IN} {MODEL} {FeCV} {AND} {FeCVNb} {ALLOY}, {AND} {A} {MICROALLOYED} {ULTRA} {HIGH} {STRENGTH} {SPRING} {STEEL}},
	url = {https://hal.archives-ouvertes.fr/hal-01822690},
	abstract = {Precipitation kinetics were studied in two model alloys and an industrial spring steel. A combination of selected techniques was used to follow the evolution of precipitates volume fraction and size distribution during austenitisation (FeVC and FeNbVC). This was then modelled, first using a simple model based on the classical nucleation theory and diffusion controlled growth and second with the help of a more complex software developped by one of the authors (MatCalc). A good agreement is obtained when comparing calculations and experimental results obtained on the model alloys. This is less so for the industrial alloy, where dissolution kinetics appear to be faster than expected.},
	urldate = {2020-02-11},
	booktitle = {{NEW} {DEVELOPMENTS} {ON} {METALLURGY} {AND} {APPLICATIONS} {OF} {HIGH} {STRENGTH} {STEELS}: {BUENOS} {AIRES} 2008, {VOLS} 1 {AND} 2, {PROCEEDINGS},},
	publisher = {MINERALS, METALS \& MATERIALS SOC},
	author = {Acevedo, D. and Perez, Michel and Epicier, T. and Kozeschnik, E. and Perrard, F. and Sourmail, T.},
	year = {2008},
	keywords = {Carbonitrides, Electron Microscopy, Kinetics of Dissolution, Microalloying, Modelling},
	pages = {987+}
}

Downloads: 0