Cast irons were produced with variations in the quantity and shape of the free graphite inclusions and in the matrix structure to investigate the relationship between the shear, compressive and tensile mechanical properties. Differences were observed which may have a significant effect on design criteria for cast irons. For example, the ratio of shear to tensile strengths decreased from about 1·25 to 0·577 and the ratio of 0·1 per cent proof stress in compression to that in tension decreased from approximately 2 to 11 as the tensile strength (and ductility) were increased.
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References
1.
British Standards InstitutionB. S. 1452: 1961 Specification for grey iron castings (London).
2.
British Standards InstitutionB. S. 2789: 1961 Specification for iron castings with spheroidal or nodular graphite (London).
3.
FoxM. A. O.AdamsR. D. ‘Correlation of the damping capacity of cast iron with its mechanical properties and microstructure’, J. mech. Engng Sci.197315 (No. 2).
4.
NadaiA.Plasticity: a mechanics of the plastic stale of matter1931 (McGraw-Hill Inc., London).
5.
GilbertG. N. J. ‘Mechanical properties of cast iron’, Chart. mech. Engr196512, 316–323.
6.
AdamsR. D.FoxM. A. O. ‘The principal mechanisms of damping in cast irons’ (to be published).
7.
CrosslandB.DeardenW. H. ‘The plastic flow and fracture of a brittle material (grey cast iron) with particular reference to the effect of fluid pressure’, Proc. Instn mech. Engrs1958172, 805–820.