Impacts of Surface Texture and Nature of Friction on Energy-Force Efficiency of Surface Plastic Deformation during Burnishing

Bobrovskij, Igor; Bobrovskij, Nikolaj; Khaimovich, Alexander; Travieso-Rodríguez, J. Antonio

doi:10.3390/met12101568

Cited by 4 publications

(3 citation statements)

References 24 publications

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“…The paper, authored by Bobrovskij et al [5], discusses the impacts of the initial surface roughness Ra on the properties of the workpiece being burnished and the overall energy efficiency of the burnishing process. In the experimental part of their work, the nature of friction in the contact zone and impacts of the clamping force on the stability and energy efficiency have been investigated.…”

Section: Contributionsmentioning

confidence: 99%

Advances in Plastic Deformation Technologies

Travieso-Rodríguez

Bobrovskij

2023

Metals

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Section: Contributionsmentioning

confidence: 99%

Advances in Plastic Deformation Technologies

Travieso-Rodríguez

Bobrovskij

2023

Metals

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“…Synthetic polycrystalline composites are the most commonly used diamond [7][8][9][10]. Other hard materials, such as single-crystal diamond [11][12][13], hard alloys [14][15][16][17][18], and hardened steel [19,20], are used occasionally. Recent research on SB on the correlation between SI and the operating behavior of slide-burnished metallic components was reviewed in [21].…”

Section: Introductionmentioning

confidence: 99%

Effect of Roller Burnishing and Slide Roller Burnishing on Fatigue Strength of AISI 304 Steel: Comparative Analysis

Duncheva,

Maximov,

Anchev

et al. 2024

Metals

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The new slide roller burnishing (SRB) method has been developed to produce mirror-like surfaces. Unlike conventional roller burnishing (RB), SRB is implemented through a unique device that allows the axes of the deforming roller and the rotary workpiece to cross, resulting in a relative sliding velocity that can be controlled (in magnitude and direction) by varying the crossing angle. In the present work, the effect of SRB on the fatigue behavior of AISI 316 steel fatigue specimens was investigated by comparing it with conventional RB using the following basic correlation in surface engineering: finishing–surface integrity (SI)–operating behavior. To obtain a more representative picture of the comparison, we implemented each method (RB and SRB) with two combinations of governing factors—(A) a radius of the roller toroidal surface of 3 mm, a burnishing force of 250 N, and a feed rate of 0.05 mm/rev (RB-A and SRB-A), and (B) a radius of the roller toroidal surface of 4 mm, a burnishing force of 550 N, and a feed rate of 0.11 mm/rev (RB-B and SRB- B). Both SRB-A (a crossing angle of –45°) and SRB-B (a crossing angle of –30°) achieved mirror-finish surfaces. SRB-B lead to the greatest fatigue strength and, thus, the longest fatigue life among all tested processes. SRB-B created the deepest zone (>0.5 mm) with residual compressive macro-stresses and a clearly defined modified surface layer, whose thickness of more than 20 μm is about twice that created by the other three processes.

show abstract

“…Synthetic polycrystalline composites are the most commonly used diamond [7][8][9][10]. Other hard materials, such as single-crystal diamond [11][12][13], hard alloy [14][15][16][17][18], and hardened steel [19,20], are used occasionally. Recent research on SB on the correlation between SI and the operating behavior of slide-burnished metallic components was reviewed in [21].…”

Section: Introductionmentioning

confidence: 99%

Effect of Roller Burnishing and Slide Roller Burnishing on Fatigue Strength of AISI 304 Steel: Comparative Analysis

Duncheva,

Maximov,

Anchev

et al. 2024

Preprint

View full text Add to dashboard Cite

The new slide roller burnishing (SRB) method has been developed to produce mirror-like surfaces. Unlike conventional roller burnishing (RB), SRB is implemented through a unique device that allows the axes of the deforming roller and the rotary workpiece to cross resulting in a relative sliding velocity that can be controlled (in magnitude and direction) by varying the crossing angle. In the present work, the effect of SRB on the fatigue behavior of AISI 316 steel fatigue specimens was investigated by comparing with a conventional RB using the basic correlation in surface engineering: finishing–surface integrity (SI)–operating behavior. To obtain a more representative picture of the comparison, we implemented each method (RB and SRB) with two combinations of governing factors: (A) a radius of the roller toroidal surface of 3 mm, a burnishing force of 250 N and feed rate of 0.05 mm/rev (RB-A and SRB-A) and (B) a radius of the roller toroidal surface of 4 mm, a burnishing force of 550 N and feed rate of 0.11 mm/rev (RB-B and SRB- B). Both SRB-A (crossing angle of –45°) and SRB-B (crossing angle of –30°) achieved mirror-finish surfaces. SRB-B lead to the greatest fatigue strength and, thus, the longest fatigue life among all tested processes. SRB-B created the deepest zone (&gt;0.5 mm) with residual compressive macro-stresses and a clearly defined modified surface layer, whose thickness of more than 20 m is about twice that created by the other three processes.

show abstract

Impacts of Surface Texture and Nature of Friction on Energy-Force Efficiency of Surface Plastic Deformation during Burnishing

Cited by 4 publications

References 24 publications

Advances in Plastic Deformation Technologies

Advances in Plastic Deformation Technologies

Effect of Roller Burnishing and Slide Roller Burnishing on Fatigue Strength of AISI 304 Steel: Comparative Analysis

Effect of Roller Burnishing and Slide Roller Burnishing on Fatigue Strength of AISI 304 Steel: Comparative Analysis

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