Abstract

The article considers evaluation of torsional strength and fracture of austenitic corrosion-resistant steel 08Kh18N9 with an ultrafine-grained (UFG) and coarse-grained (CG) structure, widely used in medicine for the production of plates, screws, rods for bone osteosynthesis and other medical products. The structure of the CG steel was studied using an Axiovert 40 MAT metallographic microscope, and the fine structure of the UFG steel was investigated with a JEM-2100 transmission electron microscope. Torsion tests of the cylindrical samples with a diameter of 10 mm were carried out at a temperature of 20°C on MK-50 installation. JEOL JCM-6000 scanning electron microscope was used for the microfractographic studies of fracture surfaces. The analysis of the torque–torsion angle diagrams showed that the torsional ultimate strength (τt) and yield strength (τ0.3) of UFG steel increase by the factor of 1.3–3.8, and the relative shear (g) decreases by the factor of 2.4 in comparison with CG steel. High values of torsional strength properties of UFG steel make it possible to provide high torque without destroying the product. Consequently, UFG steel 08Kh18N9 in comparison with CG steel is a more promising material for the manufacturing of medical screws and other medical products that experience significant loads during the torsion process. Three areas were identified on the surface of all fractures: fibrous central part, transitional (middle) part, and a relatively smooth peripheral part. Fracture begins with the formation of shear pits in the middle and peripheral parts, which, with further rotation of the sample, are completely rubbed out (in case CG steel), or remain (in case of UFG steel). Final failure occurs under the action of normal stresses in the central part of the sample.

Highlights

  • The article considers evaluation of torsional strength and fracture of austenitic corrosion-resistant steel 08Kh18N9 with an ultrafine-grained (UFG) and coarse-grained (CG) structure, widely used in medicine for the production of plates, screws, rods for bone osteosynthesis and other medical products

  • The structure of the CG steel was studied using an Axiovert 40 MAT metallographic microscope, and the fine structure of the UFG steel was investigated with a JEM-2100 transmission electron microscope

  • JEOL JCM-6000 scanning electron microscope was used for the microfractographic studies of fracture surfaces

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Summary

Стали особого назначения Superduty steel

Изучены прочность и механизм разрушения при кручении аустенитной коррозионностойкой стали 08Х18Н9 с ультрамелкозернистой (УМЗ) и крупнозернистой (КЗ) структурой, широко применяемой в медицине для производства пластин, шурупов, стержней для костного остеосинтеза и других медицинских изделий. Высокие значения прочностных свойств при кручении УМЗ стали позволяют обеспечить высокий крутящий момент без разрушения изделия. Разрушение начинается с образования ямок сдвига в средней и периферийной областях, которые при дальнейшем вращении образца полностью затираются (в случае КЗ стали), или сохраняются (в случае УМЗ стали). Ключевые слова: аустенитная сталь, медицинские изделия, ультрамелкозернистая (УМЗ) структура, испытание на кручение, прочность, разрушение, излом. Для цитирования: Клевцов Г.В., Валиев Р.З., Фесенюк М.В., Клевцова Н.А., Тюрьков М.Н., Абрамова М.М., Рааб Г.И. Прочность и механизм разрушения при кручении ультрамелкозернистой аустенитной стали медицинского назначения // Известия вузов.

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