The microstuctural evolution of plastically deformed steels has been studied by small-angle neutron scattering at ambient temperature in the range of momentum transfer q=(4π/λ)sin(Θ/2)=0.01-5 nm -1 where λ is neutron wavelength and Θ is the scattering angle.Samples of austenite stainless steels were pulled on a standard bench to cause a plastic deformation, S=0-60%, up to the fracture of the material. As a result of the deformation an increase of an order of magnitude was observed in the scatterred intensity I(q)~1/[1+(qRC) 2 ] (6-D s )/2 . The analysis of the I(q) distribution has shown the surface fractal nature of the observed nano-scale structures. The evolution of internal surface via intensive growth of pores (size R C~2 0-40 nm) was found and a linear decrease of the surface fractal dimension 2.9≥D s (S)≥2.1 was observed. These findings can be used to design the fracture criteria for materials of industrial application .
For the assessment of the effect of irradiation-induced swelling on mechanical properties of an irradiated austenitic steel, investigations have been performed on 08Kh18N10T steel -base metal and weld -exposed to damaging dozes close in magnitude, within two different temperature ranges: (a) 330-340°C, where there occurs almost no swelling, and (b) 400-450°Ñ, where a significant level of swelling (3-13%) is observed. Based on the investigation results, the temperature dependence of short-term mechanical properties is plotted for the irradiated metal. A comparative study of magnetization of the metal irradiated at various temperatures has been carried out. Fractographic examination of the tested specimens has been performed.
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