Effects of Graphite Morphology, Matrix Hardness, and Structure on the Fatigue Resistance of Gray Cast Iron

750198

02/01/1975

Event
1975 Automotive Engineering Congress and Exposition
Authors Abstract
Content
The fatigue resistance of gray cast iron is shown to be strongly dependent on graphite morphology and the strength of the steel-like matrix. Considering graphite flakes in gray iron as internal notches, a comparison is made of the fatigue resistance of gray irons and steels of comparable composition, hardness, and microstructure. Application of a Neuber analysis, previously employed in geometrically notched members to relate nominal stresses and strains to local stresses and strains at notch roots, produces quantitative values of the fatigue notch factor, Kf, for various graphite morphologies, matrix structures, and hardnesses. Fatigue resistance of gray irons is enhanced by decreasing graphite flake size. Matrix hardness is of greater importance than structure in determining the fatigue resistance.
Meta TagsDetails
DOI
https://doi.org/10.4271/750198
Pages
13
Citation
Mitchell, M., "Effects of Graphite Morphology, Matrix Hardness, and Structure on the Fatigue Resistance of Gray Cast Iron," SAE Technical Paper 750198, 1975, https://doi.org/10.4271/750198.
Additional Details
Publisher
Published
Feb 1, 1975
Product Code
750198
Content Type
Technical Paper
Language
English