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1 Korchynsky M.

1 2004

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Advanced metallic structural materials and a new role for microalloyed steels

Korchynsky M.

Inżynieria Materiałowa

2004

R. XXV, nr 3

152-158

The recent worldwide surge of steel consumption, mainly of low-strength carbon grades, has created raw-materials shortages and price increases. These supply-demand strains could be relaxed by satisfying engineering needs with less steel. However, materials used for such a substitution must combine high weight reducing potential with low cost. Microalloyed (MA) steels are cost- effective substitutes, since their high strength is the result of grain refinement and precipitation hardening. These two strengthening mechanisms are developed by the interaction of micro-additives: niobium or vanadium with the deformation occurring during hot rolling followed by cooling. The physical metallurgy of these phenomena is discussed in the paper. The optimum alloy design of MA steels combines superior properties with lowest processing cost. In many applications, the versatility and adaptability of vanadium steels provides an economic advantage. The monetary value of weight reduction is sufficient to increase the profitability of steel makers and to lower the material cost to steel users. This "win-win" situation is financed by the elimination of efforts spent in producing inefficient steel, yielding an increase in wealth formation. To gain acceptance of substitution by the consumer, a long-term strategic plan is needed to be implemented by the beneficiaries - both steel producers and steel users. The successful substitution is of importance to the national economy, resources and energy conservation, and the environment. Since microalloyed steels, used as a replacement for carbon steels, offer low-cost weight savings, they deserve to be classified as advanced structural materials.