Stability of the surface layer of bearing steel ShKh15

When conducting impact tests of protective glasses, nonunique cases of destruction of balls made of bearing steel ShKh15 were recorded. The causes of their destruction were determined. The state of the material was studied by fractographic and metallographic analysis, hardness and microhardness measurement. In the structure of the metal of all the balls, no critical defects were found such as flockens, shells and microcracks, but adverse factors were detected in the microstructure of the material, namely, the presence of fineneedle martensite with excessive carbides. It is established that the detected structural factors lead to liability to brittle fracture, an increase in the hardness of the material, a decrease in plasticity. To prevent brittle fracture of the balls and provide a reserve of plasticity of steel ShKh15 at high shock loads assessment calculations of ductility coefficient were made; and it was recommended to limit the maximum hardness of the material critical value HV=5.70 HPa (54 HRC), with the corresponding plasticity coefficient equal to 0.8.

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Influence Environment and Parameters Ablative Laser Texturing on Selected Properties Surface Layer Steel 100CrMnSi6-4

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.874.17 ◽

2014 ◽

Vol 874 ◽

pp. 17-22

Author(s):

Wojciech Napadłek

Keyword(s):

Surface Layer ◽

Scanning Speed ◽

Bearing Steel ◽

Laser Hardening ◽

Laser Texturing ◽

Martensitic Microstructure ◽

Bainite Microstructure ◽

Best Parameters ◽

Layer Steel ◽

Ablative Laser

This paper presents results of laboratory investigation microstructure bearing steel 100CrMnSi6-4 after laser hardening in the air and cryogenic environment. Usied high-power laser CO2 (4 kW) were selected the best parameters for hardening process (power density, scanning speed, the overlap surface hardened zones). As a result, laser hardening of the surface layer steel 100CrMnSi6-4 with selected process parameters obtained highdispersing martensitic microstructure of microhardness to 900HV0.1 with isolated fragmented chromium carbides. In the heat affected zone found martensitic- bainitic and bainite microstructure. In comparison with conventional hardening (e.g. inductive) were significant microstructure fragmentation and increase hardness about 15%. This paper presents ablative laser texturing surface layer above steel hardened before by laser. Texturing process was carried out in two environments and used pulsed iterbium fiber laser radiation Nd: YAG with a wavelength λ = 1064 nm.

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Residual durability of the surface layer of ShKh15 bearing steel

Materials Science ◽

10.1007/bf00558638 ◽

1996 ◽

Vol 31 (2) ◽

pp. 192-199 ◽

Cited By ~ 1

Author(s):

O. P. Datsyshyn ◽

H. P. Marchenko ◽

O. D. Zynyuk ◽

P. M. Hrytsyshyn

Keyword(s):

Surface Layer ◽

Bearing Steel

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CHANGES IN THE SURFACE LAYER OF ROLLED BEARING STEEL

Acta Polytechnica ◽

10.14311/ap.2015.55.0347 ◽

2015 ◽

Vol 55 (5) ◽

pp. 347 ◽

Cited By ~ 1

Author(s):

Oskar Zemčík ◽

Josef Sedlák ◽

Josef Chladil

Keyword(s):

Residual Stress ◽

Plastic Deformation ◽

Finite Element ◽

Surface Layer ◽

Finite Element Methods ◽

Bearing Steel ◽

Suitable Method ◽

Roller Burnishing ◽

Additional Operation

<p>This paper describes changes observed in bearing steel due to roller burnishing. Hydrostatic roller burnishing was selected as the most suitable method for performing roller burnishing on hardened bearing steel. The hydrostatic roller burnishing operation was applied as an additional operation after standard finishing operations. All tests were performed on samples of 100Cr6 material (EN 10132-4), and changes in the surface layer of the workpiece were then evaluated. Several simulations using finite element methods were used to obtain the best possible default parameters for the tests. The residual stress and the plastic deformation during roller burnishing were major parameters that were tested.</p>

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Formation of coatings on bearing steel ShKh15 during ion-plasma nitriding and subsequent quenching with tempering

Metal Science and Heat Treatment ◽

10.1007/bf00693330 ◽

1990 ◽

Vol 32 (9) ◽

pp. 650-655 ◽

Cited By ~ 4

Author(s):

O. V. Zaitsev ◽

V. G. Kaplun ◽

S. V. Ivashchuk ◽

P. E. Filyushin

Keyword(s):

Plasma Nitriding ◽

Bearing Steel ◽

Steel Shkh15 ◽

Ion Plasma ◽

Subsequent Quenching

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Production experience for high purity bearing steel ShKh15

Metallurgist ◽

10.1007/s11015-012-9584-x ◽

2012 ◽

Vol 56 (5-6) ◽

pp. 366-369

Author(s):

F. Ma ◽

M. Song

Keyword(s):

High Purity ◽

Bearing Steel ◽

Steel Shkh15 ◽

Production Experience

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Strain-induced formation of a gradient nanostructured surface layer on an ultrahigh strength bearing steel

Journal of Material Science and Technology ◽

10.1016/j.jmst.2017.12.012 ◽

2018 ◽

Vol 34 (9) ◽

pp. 1676-1684 ◽

Cited By ~ 7

Author(s):

K. Zhang ◽

Z.B. Wang

Keyword(s):

Surface Layer ◽

Bearing Steel ◽

Nanostructured Surface ◽

Ultrahigh Strength

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Surface Integrity of AISI 52100 Bearing Steel after Robot-Based Machine Hammer Peening

Journal of Manufacturing and Materials Processing ◽

10.3390/jmmp4020061 ◽

2020 ◽

Vol 4 (2) ◽

pp. 61

Author(s):

Robby Mannens ◽

Lars Uhlmann ◽

Felix Lambers ◽

Andreas Feuerhack ◽

Thomas Bergs

Keyword(s):

Surface Layer ◽

Surface Integrity ◽

Bearing Steel ◽

Forming Process ◽

Premature Failure ◽

Machine Hammer Peening ◽

Aisi 52100 ◽

Aisi 52100 Steel ◽

Hardness Increase ◽

Hammer Peening

AISI 52100 steel is often used as material for highly loaded rolling bearings in machine tools. An improved surface integrity, which can be achieved by means of mechanical surface layer finishing, can avoid premature failure. One of these finishing processes is machine hammer peening (MHP) which is a high-frequency incremental forming process and mostly used on machining centers. However, the influence of robot-guided MHP processing on the surface integrity of AISI 52100 steel is still unknown. Therefore, the objective of this work is to investigate experimentally the robot-based influences during MHP processing and the resulting surface integrity of unhardened AISI 52100 steel. The results show that the axial and lateral deviations of the robot due to process vibrations are in the lower µm range, thus enabling stable and reproducible MHP processing. By selecting suitable MHP process parameters and thus defined contact energies, even ground surfaces can be further smoothed and a hardness increase of 75% in the energy range considered can be achieved. In addition, compressive residual stress maxima of 950 MPa below the surface and a grain size reduction to a surface layer depth of 150 µm can be realized.

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Analysis of Tribological Processes in Components of Massive Roller Bearings

Solid State Phenomena ◽

10.4028/www.scientific.net/ssp.220-221.319 ◽

2015 ◽

Vol 220-221 ◽

pp. 319-323

Author(s):

Wojciech Napadłek

Keyword(s):

Surface Layer ◽

Electron Microscope ◽

Scanning Electron Microscope ◽

Contact Surface ◽

Laboratory Tests ◽

Fiber Optic ◽

Bearing Steel ◽

Roller Bearings ◽

Special Software ◽

Scanning Electron

The paper presents an analysis of tribological processes on the surface layer of large roller bearings parts carried out on bearing steel 100CrMn6. Laboratory tests carried out on roller bearings elements eg. the axle railway wagons exploitation around 600 thousand km. Modern optical microscopy with fiber optic transmission and special software was used; scanning electron microscope was applied to analyze surface stereometry; profilometers made an analyze of seizure of co-working tribological parts: roller – race roller bearings. In addition, the documentation of characteristic tribological processes occurring during the exploitation the bearings was completed. Seizure zones contact surface which occur under high and variable loads and friction were found.

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