Effect of C Content on High Temperature Erosive Wear Characteristics of Fe-Based V Containing Multi-Component Cast Steel with Ni

Shimizu, Kazumichi; Kusumoto, Kenta; Nakamura, Kimitoshi; Kiguchi, Shoji; Shirai, Masamitsu; Ito, Jun

doi:10.4028/www.scientific.net/msf.925.400

Cited by 3 publications

(4 citation statements)

References 18 publications

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“…It was due to that a great deal of consumption of carbon in the matrix for crystallization of primary carbides MC and M 2 C led to a decrease in hardness of martensite by the reduction of carbon. (3) The difference between two types of wear behaviors can be explained by not hardness but the relationship between carbide and martensitic/austenitic matrix. Martensite with distribution of fine primary carbides contribute to improvement of abrasive wear resistance, whereas metastable austenite is the effective factor for impact wear resistance.…”

Section: Discussionmentioning

confidence: 99%

Influence of Nb and V Addition on Abrasive and Impact Wear Properties of 16%Cr–3%Mo White Cast Iron

2020

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Investigations were conducted on the microstructure and behaviors of abrasive wear and impact wear of 16%Cr3%Mo white cast iron without and with 2.7%Nb1%V addition heat-treated at 1253 K followed by forced-air cooling to clarify the difference between two kinds of wear mechanisms. Microstructures were analyzed by means of scanning electron microscope equipped with energy dispersive X-ray spectrometer, X-ray diffractometer and ferrite meter. Results reveal that since MC spheroidal carbides are formed by addition of Nb and V, the other primary carbides are refined and martensite in the matrix becomes more stable. Such microstructure improves abrasive wear resistance, but deteriorates impact wear resistance. Under the severe test condition, self-tempering softening of martensite in the matrix caused by the impact energy of abrasive media and it increases the impact wear rate.

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Section: Discussionmentioning

confidence: 99%

Influence of Nb and V Addition on Abrasive and Impact Wear Properties of 16%Cr–3%Mo White Cast Iron

2020

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“…According to the researchers, a carbide-rich layer on the outer side of LSM samples increases hardness, however its effects on wear rate are dependent on interfacial pressure. The addition of nickel (Ni), tungsten (W), cobalt (Co), chromium (Cr), and molybdenum (M) in laser coated surfaces, improves the quantity of eutectic carbides and hence the high-temperature hardness wear resistance properties [83][84][85][86][87]. Surface modification by material coating with different coated materials are given in table 1.…”

Section: Effect Of Different Materials Coating On Friction and Wearmentioning

confidence: 99%

A review on wear failure of hydraulic components: existing problems and possible solutions

Sharma,

Kumar,

Das

2024

Eng. Res. Express

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This article comprehensively reviews the causes of wear of hydraulic components used in hydro-static transmission systems and their remedies by thermal coating processes. The wear of critical components of the hydraulic pump and motors, hydraulic valves, etc., is mainly due to abrasion, erosion, and cavitation. The most commonly found modes of wear in hydraulic components are contamination and abrasion wear. Such wear arresting can be done by using the surface coating and texturing of materials over the wear zones of the damaged parts. This article discusses the causes of wear in hydraulic components and suggests various solutions to reduce such wear. Recent challenges associated with the proposed solution for wear arresting and future scopes are identified in this review. In the end, some novel techniques for the treatment of wear in hydraulic components, such as laser beam treatment, plasma, Tungsten inert gas arc, and Electric discharge coating, have been discussed, which is the potential future work for enhancing the useful life of hydraulic components. These surface treatment methodologies can be applied to alter the surfaces of crucial hydraulic components that experience considerable wear, as seen in hydraulic pumps, valves, and other elements such as hydraulic cylinders.

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“…В работе [4] показано, что значительное повышение высокотемпературной (900 °С) износостойкости сплава 9 (табл. 2) достигается при его легировании 10 % никеля при содержании углерода около 2 %.…”

Section: экспериментальные наплавленные сплавыunclassified

“…Проблему борьбы с износом данного оборудования эффективно решают наплавкой их рабочих поверхностей износостойкими сплавами [1, 4,5]. Для этой цели производители сварочных материалов предлагают специализированные порошковые проволоки и покрытые электроды.…”

Section: Introductionunclassified

Analysis of Cladding Alloys for Gas-Abrasive Wear Conditions at Elevated Temperatures

et al. 2020

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The analysis of the main industrial and experimental types of wear-resistant surfacing alloys is carried out. The influence of the structural-phase composition and hardening phases in the deposited metal on its wear resistance is discussed. It is shown that the optimal ratio of the volume fractions of the plastic matrix and hard phases in the structure of the deposited alloys, which provides high resistance to gas-abrasive wear, largely depends on the angles of attack. The formation of hardening phases in the form of large inclusions of chromium carbides, as well as small high-hardness carbides of niobium, molybdenum and vanadium contributes to an increase in the wear resistance of alloys in a wide range of angles of attack. High ductility and resistance to oxidation of the matrix metal is provided when it is formed on the basis of γ-Fe due to alloying of the alloy with nickel. Alloying the weld metal with large amounts of carbon and boron is not desirable, since it greatly increases the brittleness of the metal, deteriorating its technological properties.

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Effect of C Content on High Temperature Erosive Wear Characteristics of Fe-Based V Containing Multi-Component Cast Steel with Ni

Cited by 3 publications

References 18 publications

Influence of Nb and V Addition on Abrasive and Impact Wear Properties of 16%Cr–3%Mo White Cast Iron

Influence of Nb and V Addition on Abrasive and Impact Wear Properties of 16%Cr–3%Mo White Cast Iron

A review on wear failure of hydraulic components: existing problems and possible solutions

Analysis of Cladding Alloys for Gas-Abrasive Wear Conditions at Elevated Temperatures

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