11 results on '"Kolomy, Stepan"'
Search Results
2. Machinability of extruded H13 tool steel: Effect of cutting parameters on cutting forces, surface roughness, microstructure, and residual stresses
- Author
-
Kolomy, Stepan, Maly, Martin, Sedlak, Josef, Zouhar, Jan, Slany, Martin, Hrabec, Pavel, and Kouril, Karel
- Published
- 2024
- Full Text
- View/download PDF
3. Analysis of the technological process of welding a membrane wall with Inconel 625 nickel alloy
- Author
-
Majerik, Jozef, Slany, Martin, Chochlikova, Henrieta, Sedlak, Josef, Zouhar, Jan, Zemcik, Oskar, Barenyi, Igor, Kolomy, Stepan, and Escherova, Jana
- Published
- 2023
- Full Text
- View/download PDF
4. The Effects of Strain Rate and Anisotropy on the Formability and Mechanical Behaviour of Aluminium Alloy 2024-T3.
- Author
-
Harant, Martin, Verleysen, Patricia, Forejt, Milan, and Kolomy, Stepan
- Subjects
ALUMINUM alloys ,DIGITAL image correlation ,DUCTILE fractures ,STRAIN rate ,ANISOTROPY ,STRESS-strain curves ,SCANNING electron microscopy - Abstract
The present study focuses on the mechanical behaviour and formability of the aluminium alloy 2024-T3 in sheet form with a thickness of 0.8 mm. For this purpose, tensile tests at quasi-static and intermediate strain rates were performed using a universal testing machine, and high strain rate experiments were performed using a split Hopkinson tension bar (SHTB) facility. The material's anisotropy was investigated by considering seven different specimen orientations relative to the rolling direction. Digital image correlation (DIC) was used to measure specimen deformation. Based on the true stress–strain curves, the alloy exhibited negative strain rate sensitivity (NSRS). Dynamic strain aging (DSA) was investigated as a possible cause. However, neither the strain distribution nor the stress–strain curves gave further indications of the occurrence of DSA. A higher deformation capacity was observed in the high strain rate experiments. The alloy displayed anisotropic mechanical properties. Values of the Lankford coefficient lower than 1, more specifically, varying between 0.45 and 0.87 depending on specimen orientations and strain rate, were found. The hardening exponent was not significantly dependent on specimen orientation and only moderately affected by strain rate. An average value of 0.183 was observed for specimens tested at a quasi-static strain rate. Scanning electron microscopy (SEM) revealed a typical ductile fracture morphology with fine dimples. Dimple sizes were hardly affected by specimen orientation and strain rate. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
5. Processing of Bimetallic Inconel 625-16Mo3 Steel Tube via Supercritical Bend: Study of the Mechanical Properties and Structure.
- Author
-
Barenyi, Igor, Slany, Martin, Kouril, Karel, Zouhar, Jan, Kolomy, Stepan, Sedlak, Josef, and Majerik, Jozef
- Subjects
STEEL tubes ,INCONEL ,BENDING stresses ,SUPERCRITICAL water ,TUBE bending ,DENDRITES ,LASER peening ,TUBES - Abstract
Incineration is currently the standard way of disposing of municipal waste. It uses components protected by high-temperature-resistant layers of materials, such as Inconel alloys. Therefore, the objective of the current paper is to study the mechanical properties and structure of a bimetallic Inconel 625-16Mo3 steel tube. The Inconel 625 layer was 3.5 mm thick and was applied to the surface of the tube with a wall thickness of 7 mm via the cold metal transfer method. The bimetallic tube was bent using a supercritical bend (d ≤ 0.7D). This paper is focused on the investigation of the material changes in the Inconel 625 layer areas influenced by the maximum tensile and compressive stresses after the bend. The change in layer thickness after the bend was evaluated and compared to the non-deformed tube. In addition, the local mechanical properties (nanohardness, Young modulus) across the indicated interfacial areas using quasistatic nanoindentation were investigated. Subsequently, a thorough microstructure observation was carried out in areas with maximum tensile and compressive stresses to determine changes in the morphology and size of dendrites related to the effect of tensile or compressive stresses induced by bending. It was found that the grain featured a stretched secondary dendrite axis in the area of tensile stress, but compressive stress imparted a prolongation of the primary dendrite axis. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
6. Effect of high-speed steel screw drill geometry on cutting performance when machining austenitic stainless steel.
- Author
-
Sedlak, Josef, Zouhar, Jan, Kolomy, Stepan, Slany, Martin, and Necesanek, Emil
- Subjects
AUSTENITIC stainless steel ,SCREWS ,CORE drilling ,GEOMETRY ,STEEL ,MACHINING - Abstract
Drilling into the solid material is one of the basic technological operations, which creates a cylindrical hole in an appropriate time with required quality. Drilling operation demands a favourable removal of chips from the cutting area because a creation of an undesirable shape of chips can impart a lower quality of the drilled hole corresponding with the generation of excess heat due to the intense contact of the chip with drill. The solution for a proper machining is a suitable modification of the drill geometry i.e., point and clearance angles as presented in current study. The tested drills are made of M35 high-speed steel characterized by a very thin core at the point of the drill. An interesting feature of the drills is the use of cutting speed higher than 30 m min
−1 , with the feed of 0.2 mm per revolution. The surface roughness (Ra and Rz lower than 1 µm and 6 µm respectively), cylindricity (0.045 mm), roundness (0.025 mm), perpendicularity of the hole axis (0.025 mm), diameters and position of the individual holes were achieved for a drill with point angle 138.32°and clearance angle 6.92 respectively. The increase of the drill point angle by 6° resulted in the decrease in the feed force of more than 150 N. In addition, an increase of the clearance angle by 1° resulted with a decrease in the feed force of 70 N. The results of the experiment showed that with the correct geometry of the tool the effective machining without using internal cooling can be realised. [ABSTRACT FROM AUTHOR]- Published
- 2023
- Full Text
- View/download PDF
7. High Cycle Fatigue Behaviour of 316L Stainless Steel Produced via Selective Laser Melting Method and Post Processed by Hot Rotary Swaging.
- Author
-
Opěla, Petr, Benč, Marek, Kolomy, Stepan, Jakůbek, Zdeněk, and Beranová, Denisa
- Subjects
SELECTIVE laser melting ,STAINLESS steel ,FATIGUE limit ,CRYSTAL grain boundaries ,HIGH cycle fatigue ,DISLOCATION density ,CYCLIC fatigue ,MATERIAL fatigue - Abstract
This paper deals with a study of additively manufactured (by the Selective Laser Melting, SLM, method) and conventionally produced AISI 316L stainless steel and their comparison. With the intention to enhance the performance of the workpieces, each material was post-processed via hot rotary swaging under a temperature of 900 °C. The samples of each particular material were analysed regarding porosity, microhardness, high cycle fatigue, and microstructure. The obtained data has shown a significant reduction in the residual porosity and the microhardness increase to 310 HV in the sample after the hot rotary swaging. Based on the acquired data, the sample produced via SLM and post-processed by hot rotary swaging featured higher fatigue resistance compared to conventionally produced samples where the stress was set to 540 MPa. The structure of the printed samples changed from the characteristic melting pools to a structure with a lower average grain size accompanied by a decrease of a high fraction of high-angle grain boundaries and higher geometrically necessary dislocation density. Specifically, the grain size decreased from the average diameters of more than 20 µm to 3.9 µm and 4.1 µm for the SLM and conventionally prepared samples, respectively. In addition, the presented research has brought in the material constants of the Hensel-Spittel formula adapted to predict the hot flow stress evolution of the studied steel with respect to its 3D printed state. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
8. Analysis of the Mechanical Properties of 3D-Printed Plastic Samples Subjected to Selected Degradation Effects.
- Author
-
Sedlak, Josef, Joska, Zdenek, Jansky, Jiri, Zouhar, Jan, Kolomy, Stepan, Slany, Martin, Svasta, Adam, and Jirousek, Jan
- Subjects
MECHANICAL behavior of materials ,HARDNESS testing ,TENSILE tests ,RAPID prototyping ,TENSILE strength - Abstract
The Fused Filament Fabrication (FFF) method is an additive technology that is used for the creation of prototypes within Rapid Prototyping (RP) as well as for the creation of final components in piece or small-series production. The possibility of using FFF technology in the creation of final products requires knowledge of the properties of the material and, at the same time, how these properties change due to degradation effects. In this study, the mechanical properties of the selected materials (PLA, PETG, ABS, and ASA) were tested in their non-degenerate state and after exposure of the samples to the selected degradation factors. For the analysis, which was carried out by the tensile test and the Shore D hardness test, samples of normalized shape were prepared. The effects of UV radiation, high temperature environments, high humidity environments, temperature cycles, and exposure to weather conditions were monitored. The parameters obtained from the tests (tensile strength and Shore D hardness) were statistically evaluated, and the influence of degradation factors on the properties of individual materials was assessed. The results showed that even between individual manufacturers of the same filament there are differences, both in the mechanical properties and in the behavior of the material after exposure to degradation effects. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
9. Influence of Aging Temperature on Mechanical Properties and Structure of M300 Maraging Steel Produced by Selective Laser Melting.
- Author
-
Kolomy, Stepan, Sedlak, Josef, Zouhar, Jan, Slany, Martin, Benc, Marek, Dobrocky, David, Barenyi, Igor, and Majerik, Jozef
- Subjects
- *
MARAGING steel , *SELECTIVE laser melting , *CRYSTAL grain boundaries , *COMPRESSIVE strength , *HEAT treatment - Abstract
This paper deals with the study of high-strength M300 maraging steel produced using the selective laser melting method. Heat treatment consists of solution annealing and subsequent aging; the influence of the selected aging temperatures on the final mechanical properties—microhardness and compressive yield strength—and the structure of the maraging steel are described in detail. The microstructure of the samples is examined using optical and electron microscopy. The compressive test results show that the compressive yield strength increased after heat treatment up to a treatment temperature of 480 °C and then gradually decreased. The sample aged at 480 °C also exhibited the highest observed microhardness of 562 HV. The structure of this sample changed from the original melt pools to a relatively fine-grained structure with a high fraction of high-angle grain boundaries (72%). [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
10. Possibilities of Using the Duplex System Plasma Nitriding + CrN Coating for Special Components.
- Author
-
Dobrocky, David, Pokorny, Zdenek, Vitek, Roman, Prochazka, Jiri, Studeny, Zbynek, Joska, Zdenek, Sedlak, Josef, Slany, Martin, and Kolomy, Stepan
- Subjects
SURFACE preparation ,SURFACE roughness measurement ,SURFACE texture ,SURFACE coatings ,FRICTION measurements ,NITRIDING - Abstract
The article deals with the replacement of hard chrome plating by applying the duplex system plasma nitriding + CrN coating (hereinafter referred to as PN + CrN). The goal of the research was to find a suitable alternative for steel surface treatment that would replace hard chrome plating and ensure similar mechanical and tribological properties. An exposed part of a small-bore weapon was selected for evaluation, namely the gas piston of the 42CrMo4 steel breech mechanism drive. The PN + CrN duplex system was compared with a hard chrome coating as well as a self-deposited CrN coating. The mentioned surface treatments were evaluated in terms of metallography, mechanical and tribological properties and surface texture. From the mechanical properties, the hardness of the surface was analyzed, an indentation test was performed (Mercedes test) and adhesive-cohesive behavior was evaluated (Scratch test). Furthermore, an instrumented penetration test was performed (an evaluation of plastic and elastic deformation work and indentation hardness). As part of the assessment of tribological properties, the Ball-on-Flat test, the measurement of the coefficient of friction and the measurement of traces of wear were performed. The surface texture was evaluated in terms of morphology and surface roughness measurement by selected 2D and 3D parameters. The PN + CrN duplex system showed higher hardness than hard chrome, better tribological properties (lower friction coefficient), but worse surface texture. The PN + CrN duplex system has proven to be a suitable alternative to the hard chrome coating for exposed parts of small-caliber weapons, which can be applied in arms production. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
11. ON THE EFFECTIVE SUBSTITUTION OF TURNING BY PERIPHERAL MILLING.
- Author
-
Piska, Miroslav and Kolomy, Stepan
- Subjects
- *
CUTTING tools , *CARBIDE cutting tools , *MILLING cutters , *STAINLESS steel , *MACHINE tools , *PRODUCTION (Economic theory) , *ASSEMBLY machines - Abstract
Turning operation seems to by prevailing for a production of rotational parts with standard demands on quality on machined surfaces. However, there are some applications that prevent effective use of the technology due to chip removal, entwining, clogging that prevents safe cooling of the turning tools and it ends frequently in a tool fracture or damage of the machined surface. Milling technology can suppress many of these problems, because the machining action is interrupted, chip is short and the cutting tool can machine even more surfaces in parallel. A difficult to machine welded assembly of stainless steel materials (the austenitic EN 1.4307 and the ferritic EN 1.4511) of profiled workpiece shape was selected for a substitution of the standard turning using several cutting tools by a milling and just one PVD coated monolithic cemented carbide tool. The series production of the part was selected and all quality parameters were first predicted, monitored and optimized. Finally, the economics of the production was assessed in terms of productivity and costs. All results confirmed a very stabilized production of good surface quality and long endurance of the milling tool (machined more then 30,000 pieces with one milling cutter). [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
Catalog
Discovery Service for Jio Institute Digital Library
For full access to our library's resources, please sign in.