| Title: | Analysis of a Damaged Drill Made form HS 2-9-1-8 Steel |
| Other Titles: | Analýza poškozeného vrtáku vyrobeného z oceli HS 2-9-1-8 |
| Authors: | Průcha, Vojtěch Bricín, David Hájek, Jiří |
| Citation: | PRŮCHA, V. BRICÍN, D. HÁJEK, J. Analysis of a Damaged Drill Made form HS 2-9-1-8 Steel. Defect and Diffusion Forum, 2022, roč. neuveden, č. 417, s. 101-107. ISSN: 1012-0386 |
| Issue Date: | 2022 |
| Publisher: | Trans Tech Publications Ltd |
| Document type: | článek article |
| URI: | 2-s2.0-85133724879 http://hdl.handle.net/11025/51321 |
| ISSN: | 1012-0386 |
| Keywords: | broušení;tvrzená vrstva;rychlořezná ocel HS 2-9-1-8;primární karbidy |
| Keywords in different language: | grinding;hardened layer;high-speed steel HS 2-9-1-8;primary carbides |
| Abstract: | This article aims to explain the reasons leading to the damage of a drill during its final grinding. Metallographic analysis using light and scanning electron microscopy was used to determine whether the damage was related to the structure of the material, which is given by its chemical composition, forming, and especially its heat treatment, or the grinding methodology. The drill was made of HS 2-9-1-8 tool steel. Fractographic analysis showed a cleavage fracture. In terms of the heat treatment used, the measured hardness of the analysed samples was appropriate for the requirements and possibilities of the tool steel. The metallographic analysis showed that the microstructure contained areas with clusters of primary carbides. These clumps significantly reduce the toughness of the material. In addition, there was found a structural notch in the form of a white layer with a higher carbon content on the outer circumference of the samples. This layer also significantly contributed to the reduction of toughness. The hardened layer below the structural notch also contributed to the reduction in toughness. All of these microstructural defects were caused by poor grinding, which led to the tool damage. |
| Abstract in different language: | This article aims to explain the reasons leading to the damage of a drill during its final grinding. Metallographic analysis using light and scanning electron microscopy was used to determine whether the damage was related to the structure of the material, which is given by its chemical composition, forming, and especially its heat treatment, or the grinding methodology. The drill was made of HS 2-9-1-8 tool steel. Fractographic analysis showed a cleavage fracture. In terms of the heat treatment used, the measured hardness of the analysed samples was appropriate for the requirements and possibilities of the tool steel. The metallographic analysis showed that the microstructure contained areas with clusters of primary carbides. These clumps significantly reduce the toughness of the material. In addition, there was found a structural notch in the form of a white layer with a higher carbon content on the outer circumference of the samples. This layer also significantly contributed to the reduction of toughness. The hardened layer below the structural notch also contributed to the reduction in toughness. All of these microstructural defects were caused by poor grinding, which led to the tool damage. |
| Rights: | Plný text není přístupný. © Trans Tech Publications |
| Appears in Collections: | Články / Articles (KMM) OBD |
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|---|---|---|---|
| DDF.417.101.pdf | 2,02 MB | Adobe PDF | View/Open Request a copy |
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