论文信息 - Strengthening of grain boundaries by segregated interstitials in iron

Strengthening of grain boundaries by segregated interstitials in iron

AbstractThe energy levels of the various physicochemical states of a hydrogen or carbon atom in iron are compared. Both types of atom segregate strongly to grain boundaries in a iron. The embedded atom theory shows that the grain boundary state of hydrogen is very similar to the chemisorbed state, so that when a fast crack passes along the boundary the atom can readily transfer from one state to the other, thus making no contribution to intergranular cohesion. By contrast, the carbon atom cannot gain its full chemisorption energy without making a jump from the grain boundary state, a process that is slow compared with that of fast cracking. As a result, the carbon atom contributes strongly to intergranular cohesion, estimated at about 2 eV per segregated atom.MST/1166

A. Cottrell | A. H. Cottrell

[1] A. Cottrell,et al. Strengths of grain boundaries in pure metals , 1989 .

[2] P. Nordlander,et al. Trends in hydrogen heats of solution and vacancy trapping energies in transition metals , 1986 .

[3] Defect Clusters in B.C.C. Metals,et al. Point defects and defect interactions in metals , 1982 .

[4] A. Voter,et al. Theoretical studies of grain boundaries in Ni3Al with boron or sulfur , 1989 .

[5] J. Nørskov,et al. Theory of hydrogen interaction with metals , 1987 .

[6] O. Izumi,et al. Improvement in Room Temperature Ductility of the L1 2 Type Intermetallic Compound Ni 3 Al by Boron Addition , 1979 .

[7] H. Grabke,et al. Equilibrium surface segragation of carbon on iron (100) faces , 1975 .

[8] A. Cochardt,et al. Interaction between dislocations and interstitial atoms in body-centered cubic metals , 1955 .

[9] T. A. Roth. The surface and grain boundary energies of iron, cobalt and nickel , 1975 .

[10] R. A. Oriani,et al. The diffusion and trapping of hydrogen in steel , 1970 .

[11] J. Chipman. Thermodynamics of liquid Fe-C solutions , 1970 .

[12] A. Cottrell,et al. Dislocations and plastic flow in crystals , 1953 .