Bulletin of the Polish Academy of Sciences: Technical Sciences

Kluczyński, Janusz; Śnieżek, Lucjan; Grzelak, Krzysztof; Oziębło, Artur; Perkowski, Krzysztof; Torzewski, Janusz; Szachogłuchowicz, Ireneusz; Gocman, Krzysztof; Wachowski, Marcin; Kania, B.

doi:10.24425/bpasts.2020.135396

2020

DOI: 10.24425/bpasts.2020.135396

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Bulletin of the Polish Academy of Sciences: Technical Sciences

Janusz Kluczyński

Lucjan Śnieżek

Krzysztof Grzelak

et al.

Abstract: Industries that rely on additive manufacturing of metallic parts, especially biomedical companies, require material science-based knowledge of how process parameters and methods affect the properties of manufactured elements, but such phenomena are incompletely understood. In this study, we investigated the influence of selective laser melting (SLM) process parameters and additional heat treatment on mechanical properties. The research included structural analysis of residual stress, microstructure, and sclero… Show more

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Cited by 5 publications

References 28 publications

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Wpływ selektywnego spiekania laserowego na relaksację naprężeń w PA12

Szot,

Bochnia,

Zmarzły

2024

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Wpływ selektywnego spiekania laserowego na relaksację naprężeń w PA12

Szot,

Bochnia,

Zmarzły

2024

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Machining of M390 Microclean® and M398 Mircoclean® PM Steels - the Comparison of Cutting Forces and Surface Roughness

Majerík,

Majerský,

Chochlíková

et al. 2023

Manufacturing Technology

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Article deals with comparison of cutting forces and surface roughness between materials produced by powder metallurgy -M390 and M398 Microclean® from producer, company Böhler. Main interest is the analysis and comparison of the cutting forces and surface roughness after the processing by cutting inserts with DNMG and WNMG geometry, radius 0.4 and 0.8 mm, after hard turning at the same process parameters for both materials and all four types of cutting inserts. The comparative studies were carried out for cutting forces and surface roughness with the aiming to observe the difference between "old generation" M390 and "new generation" M398 PM Steel for future processing in production. The corelation between the cutting forces and surface roughness was investigated. The measurement results indicate that the M398 is necessary to process with higher cutting forces which are linked with higher surface roughness than for M390. It is in relation with higher contain of additive elements in M398 and carbides formed by them even that both materials are in delivered condition soft annealed, containing Ferrite instead of Martensite [1], [2]. No less significant is influence of the type of cutting insert. The WNMG geometry showed better results for processing of both materials and is more suitable for their processing as well as radius 0.8 reached superior cutting parameters and surface roughness than 0.4. The result of this experiment is the selection of the appropriate geometry of the cutting insert, together with the determination of the correct parameters for machining the investigated materials supported by the results of the experiment. Suitable combination of cutting inserts and cutting parameters can reduce the time and energy requirements to process these high-quality steels. The results of this experiment helped to fulfil the knowledge about both materials in the row of experiments which are provided to increase material properties against abrasion and wear.

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Friction films analysis and tribological properties of composite antifriction self-lubricating material based on nickel alloy

Roszak,

Kurzawa,

Roik

et al. 2023

Materials Science-Poland

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This article analyzes the composition and distribution of chemical elements in friction films and their effect on the tribological properties of the self-lubricating, high-temperature antifriction composite based on EP975 powder nickel alloy with CaF2 solid lubricant. Analysis of the chemical elements by energy-dispersive spectroscopy (EDS) showed their uniform distribution, on both the composite’s surface and the counterface’s surface. The alloying elements’ uniform distribution leads to a uniform distribution of the corresponding phases and structural elements in the antifriction film. This ensures high tribological properties at high temperatures. Analysis of the material’s tribological properties, by means of metallographic and micro-X-ray research confirmed the correctness of the technology for producing the composite. Solid lubricant CaF2, alloying elements, and their corresponding phases form the continuous antiscoring film. The film influences the antifriction properties formation during the friction process and provides a self-lubricating mode under the action of high temperature and oxygen. Antiscoring, self-lubricating CaF2 films minimize wear of the friction pairs and defend the contact surfaces against intensive wear. The dense antifriction films have smooth microtopography, which stabilizes the high-temperature friction unit operation. Thus, the self-lubrication mode is realized for a long exploitation time. Tribological properties analysis allowed us to determine the ranges of rational exploitation modes for the material being studied: a load up to 5.0 MPa, a slide speed from 0.3 to 1.0 m/s, a temperature up to 800°C, in the air. The results obtained opened the opportunity to control the antifriction film formation and the composite’s tribological properties by the choice of the initial ingredients while taking into account the operating conditions.

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Bulletin of the Polish Academy of Sciences: Technical Sciences

Cited by 5 publications

References 28 publications

Wpływ selektywnego spiekania laserowego na relaksację naprężeń w PA12

Wpływ selektywnego spiekania laserowego na relaksację naprężeń w PA12

Machining of M390 Microclean® and M398 Mircoclean® PM Steels - the Comparison of Cutting Forces and Surface Roughness

Friction films analysis and tribological properties of composite antifriction self-lubricating material based on nickel alloy

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