Quench Process and Steel Chemistry Optimization to Prevent Quench Cracking during Hardening of Splined Semi – Axles

In the paper the hardening process of splined semi-axles is discussed and physics of preventing the quench crack formation during intensive quenching (IQ) is explained. It is shown that during IQ process at the splined cylindrical surface very high compressive current band residual stresses are formed which prevent the possibility of quench crack formation on splines. It is enough to optimize the stress distribution through the section of semi-axle and perform IQ process in order to prevent quench cracks formation in splines. It is achieved via optimizing depth of surface hardened layer. In this case the depth of surface hardened layer for cylinders and for cylinders with splines are the same. There is no need to create a special thin shell on splines or perform carburization to create such shell. Due to larger martensite specific volume, it results in surface compressive residual stress formation. Absence of martensite phase at the core eliminates core swelling that could be a reason in tensile surface stresses. The idea is supported by FEM calculations and testing of real semi-axles in industrial condition. The new idea simplifies cardinally technological process and makes it less costly.

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Influence of laser surface hardened layer on mechanical properties of re-engineered low carbon steel sheet

Materials Science and Engineering A ◽

10.1016/j.msea.2016.12.124 ◽

2017 ◽

Vol 685 ◽

pp. 168-177 ◽

Cited By ~ 13

Author(s):

Badirujjaman Syed ◽

Sulthan Mohiddin Shariff ◽

Gadhe Padmanabham ◽

Shaumik Lenka ◽

Basudev Bhattacharya ◽

...

Keyword(s):

Mechanical Properties ◽

Carbon Steel ◽

Steel Sheet ◽

Low Carbon Steel ◽

Hardened Layer ◽

Laser Surface ◽

Low Carbon ◽

Carbon Steel Sheet ◽

Surface Hardened Layer

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Effects of Processing Temperatures on the Characteristics of the Surface Hardened Layer Produced on Duplex Stainless Steel by Low Temperature Plasma Nitrocarburizing

Proceedings of the 8th Pacific Rim International Congress on Advanced Materials and Processing ◽

10.1007/978-3-319-48764-9_251 ◽

2013 ◽

pp. 2025-2033

Author(s):

Insup Lee

Keyword(s):

Stainless Steel ◽

Low Temperature ◽

Duplex Stainless Steel ◽

Hardened Layer ◽

Low Temperature Plasma ◽

Temperature Plasma ◽

Plasma Nitrocarburizing ◽

Surface Hardened Layer

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IMPROVING THE PERFORMANCE OF MINERAL CERAMIC BLADE CUTTING TOOLS

Spravochnik Inzhenernyi zhurnal ◽

10.14489/hb.2021.06.pp.040-044 ◽

2021 ◽

pp. 40-44

Author(s):

Yu. M. Zubarev ◽

M. A. Afanasenkov

Keyword(s):

Chemical Elements ◽

Cutting Tools ◽

Vacuum Treatment ◽

Hardened Layer ◽

Configuration Model ◽

Functional Surface ◽

Surface Layers ◽

Working Surface ◽

Blade Cutting ◽

Surface Hardened Layer

The article considers the possibility of improving the performance of mineral-ceramic cutting plates by removing most of the defects on their working surface due to the formation of functional surface layers by ion-vacuum treatment. A model of a surface-hardened layer for VOK-60 type ceramics is proposed. Based on the configuration model of the substance, chemical elements are selected for modifying the surface layer of ceramics. The results of laboratory and production tests that showed an increase in the performance of ceramic plates after implantation by at least two times are presented.

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Effect of carbon on the resistance of a surface hardened layer to stress corrosion cracking

Soviet Materials Science ◽

10.1007/bf00717637 ◽

1975 ◽

Vol 9 (1) ◽

pp. 107-109

Author(s):

Yu. I. Babei ◽

M. G. Khitarishvili ◽

O. I. Terekh

Keyword(s):

Stress Corrosion ◽

Stress Corrosion Cracking ◽

Hardened Layer ◽

Corrosion Cracking ◽

Surface Hardened Layer

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Influence of Laser Hardening to the Sliding Wear Resistance of the PVD (Al,Ti)N-G and nACo® Coatings

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.604.28 ◽

2014 ◽

Vol 604 ◽

pp. 28-31 ◽

Cited By ~ 2

Author(s):

Andrei Surzhenkov ◽

Eron Adoberg ◽

Maksim Antonov ◽

Fjodor Sergejev ◽

Valdek Mikli ◽

...

Keyword(s):

Wear Resistance ◽

Sliding Wear ◽

Vapour Deposition ◽

Hardened Layer ◽

Laser Hardening ◽

Beam Power ◽

Physical Vapour Deposition ◽

Hardening Process ◽

Laser Beam Power ◽

Scan Speed

In the present article, the laser hardening of the carbon steel C45, previously coated by the physical vapour deposition (PVD) process, is studied. The (Al,Ti)N-G and nACo® (nc-AlxTi1-xN/α-Si3N4) coatings were applied. Nd:YAG laser with the laser beam power density of 1945 W/cm2 and scan speed of 300 mm/min was used for hardening process. Laser hardening lead to the formation of hardened layer under both coatings, consisting of austenite and ferrite. The approximate depth of the hardened layer and maximal microhardness was approximately 0.2 mm and 955 HV0.05 and 0.1 mm and 520 HV0.05 in the case of the (Al,Ti)N-G and the nACo® coating, respectively. After laser hardening the sliding wear of the (Al,Ti)N-G coating decreased by 1.25 times and of the nACo® coating by 1.05 times.

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Calculation of stress relaxation in a surface-hardened layer near the hole in the disk of a turbine in a gas-turbine engine

Strength of Materials ◽

10.1007/bf01528685 ◽

1988 ◽

Vol 20 (8) ◽

pp. 1088-1095

Author(s):

Yu. P. Samarin ◽

E. V. Grinevich ◽

L. A. Muratova ◽

V. P. Radchenko

Keyword(s):

Stress Relaxation ◽

Gas Turbine ◽

Hardened Layer ◽

Gas Turbine Engine ◽

Turbine Engine ◽

Surface Hardened Layer

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Surface-hardened Layer Properties of Newly Developed Case-hardening Steel

ISIJ International ◽

10.2355/isijinternational.isijint-2017-460 ◽

2018 ◽

Vol 58 (4) ◽

pp. 727-733 ◽

Cited By ~ 2

Author(s):

Koh-ichi Sugimoto ◽

Tomohiko Hojo ◽

Yuta Mizuno

Keyword(s):

Hardened Layer ◽

Case Hardening ◽

Case Hardening Steel ◽

Surface Hardened Layer

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Experiments and Regression Analysis of Grinding Hardened Layer Depth Based on Transverse Feed

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.814.190 ◽

2019 ◽

Vol 814 ◽

pp. 190-195

Author(s):

Shun Xing Gao ◽

Ju Dong Liu ◽

Zhi Long Xu ◽

Xiao Fan Yang

Keyword(s):

Process Parameters ◽

Optimization Design ◽

Hardened Layer ◽

Depth Of Cut ◽

Grinding Process ◽

Layer Depth ◽

Hardening Process ◽

Orthogonal Experiments ◽

Grind Hardening ◽

40Cr Steel

Based on orthogonal experiments, the influences of grinding process parameters including depth of cut (ap), workpiece infeed velocity (vw) and transverse regrinding value (Cr) on hardened layer depth (HLD) of 40Cr steel are studied in the grind-hardening process. The grind-hardening orthogonal experiments of 3-factors are performed on the 40Cr steel with the L16 (45) orthogonal table and the experimental optimization design theory. To understand quantitatively the effects of three grinding process parameters, the experimental data are modeled by regression. Among three grinding process parameters, the most important parameter is ap, followed by vw and Cr respectively. The experimental results indicate that HLD would increase with the increasing of the depth of cut and the decreasing of the workpiece infeed velocity in grind-hardening process, but HLD would decrease with the increasing of the interaction between the depth of cut and workpiece infeed velocity.

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