EVALUATION OF FORMABILITY OF THIN SHEETS BASED ON Al-Mg-Si FOR AUTOMOTIVE INDUSTRY

Petroušek, Patrik; Kvačkaj, Tibor; Kočiško, Róbert; Bidulský, Róbert; Bidulská, Jana; Fedoriková, Alica; Hlava, Tomáš

doi:10.12776/ams.v21i3.615

Cited by 8 publications

(9 citation statements)

References 22 publications

(29 reference statements)

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“…This is represented by a decrease in the impact energy values and low macrodeformation characteristics. Low values of the TRS underline insufficient development of interparticle bonding during heat treatment, the pores and other internal defects [11][12][13] developed in the consolidation are detrimental to the mechanical properties. It is well-known that strengthening is attributed to the pile-up of dislocations at grain boundaries acting as efficient barriers to dislocation motion.…”

Section: Resultsmentioning

confidence: 99%

Microdeformation Processes in Soft Magnetic Compounds

et al. 2017

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Porosity can be defined in different ways. The most frequently used definition is the total porosity, which is the total volume fraction of empty space in the specimen. The presence of pores strongly affects the fracture mode. Besides the evaluation of geometry and quality of connections, fractographic analysis enables a quantification of the important microstructural characteristics of the plane porosity. This quantity allows to quantify the existing relations between microstructure and properties. The fractographic evaluation of the distribution of microdeformation processes in the volume of experimental material demonstrates the influence of porosity on the concentration of deformation flows into the microvolume of connections. Plain porosity contributes to the recognition of critical microstructural defects and therefore, to enable evaluating the relationship between the processing parameters, microstructural constituents, and pores. In the fractography evaluation, the analysis of the quality of interparticle bonding using determination of elementary types of fracture facets allows to interpret the mechanical and plastic properties of investigated materials.

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Section: Resultsmentioning

confidence: 99%

Microdeformation Processes in Soft Magnetic Compounds

et al. 2017

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“…Numerical simulations were calculated for this type of material in software Deform 3D. According to [13][14][15][21][22][23] it was designed five types of samples, as it is given at Fig. 2.…”

Section: Experimental Materials and Methodsmentioning

confidence: 99%

HOT COMPRESSION TEST OF 9 Cr-1 Mo STEEL – NUMERICAL SIMULATION

Fedoriková

Kvačkaj

Kočiško

et al. 2016

Acta Metall Slovaca

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This paper is focused on the evaluation of formability of heat resistant steel type 9Cr-1Mo by laboratory numerical simulationhot compression test confirmed by laboratory hot compression test. The 9Cr-1Mo steel represents modern 9%Cr tempered martensitic steel for high temperature applications in advanced thermal power plants. Numerical simulations were computed in software Deform 3D for five proposed sample shapes. On the base of normalized Cockcroft-Latham criterion (nCL), indicating the material damage during deformation, the sample type "tapered roller with four axial notches" was found to be the most suitable for hot workability evaluation. On base of simulations, it is also evaluated the temperature range of the workability of 9Cr-1Mo. The interval of good workability according to the nCL criteria is in the temperature range from 650 to 950 °C.

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“…Most of the simulation software use constitutive material models by Hollomon, Ludwik, Swift, Voce, Krupkowski-Swift [9,10] to define material stress-strain behaviour when deformed at static strain rates conditions. For middle and higher strain rates following constitutive material models are used [11,12]: -Hollomon:…”

Section: Fig 1 Deformable Car Body Components At Frontal Impactmentioning

confidence: 99%

Quasistatic Strain Rates’ Effect to the Properties of Advanced Steels for Automotive Industry

Evin

Tomáš

Výrostek

2016

Acta Metall Slovaca

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The paper presents the findings of the strain rate effect, described in constitutive material models by strain rate sensitivity index m, to the strength and deformation material properties. These were evaluated from stress-strain diagrams recorded at tensile test using PC controlled testing machine TiraTEST 2300 according to STN EN ISO 6892-1. The high strength low alloyed steel H220PD, dual phase steel DP 600 and Trip steel RAK 40/70 were investigated at strain rates   = 0.0021, 0.083 and 0.125 s -1 . The results indicate major influence of the strain rate to the strength properties while only minor influence have been found when evaluate the deformation properties. The results also shown single phase materials are more sensitive to the strain rate than dual phase materials.

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EVALUATION OF FORMABILITY OF THIN SHEETS BASED ON Al-Mg-Si FOR AUTOMOTIVE INDUSTRY

Cited by 8 publications

References 22 publications

Microdeformation Processes in Soft Magnetic Compounds

Microdeformation Processes in Soft Magnetic Compounds

HOT COMPRESSION TEST OF 9 Cr-1 Mo STEEL – NUMERICAL SIMULATION

Quasistatic Strain Rates’ Effect to the Properties of Advanced Steels for Automotive Industry

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