prof. Dr. Ing. Dalibor Vojtěch

E-mail: Dalibor.Vojtech@vscht.cz

Tel.:+420220444290 

Room: A58

ResearchID: AAC-7645-2022

ScopusID: 6603923395

ORCID ID: 0000-0002-6910-3206

Professor, Head of Department, Head of Group Physical Metallurgy

• 1989-1994: UCT Prague, M. Sc. in Chemical technology of metallic and special inorganic materials
• 1994-1997: UCT Prague, Ph.D. in Physical Metallurgy 

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• 1996-1997: UCT Prague, Department of Metallic Materials and Corrosion Engineering, Research Fellow
• 1997-2005: UCT Prague, Department of Metallic Materials and Corrosion Engineering, Assistant Professor
• since 2005: UCT Prague, Department of Metallic Materials and Corrosion Engineering, Associate Professor
• since 2009: UCT Prague, Department of Metallic Materials and Corrosion Engineering, Head of Department

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• light metal alloys (Al, Mg, Ti)
• metallic biomaterials for medicine
• 3D printing of metal materials
• powder metallurgy
• superficial layers
• nanocrystalline materials
• composite materials
• crystallization of metals

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• Metallic Materials (Bachelor studies)
• Properties of metals (Master studies)
• Physical Metallurgy (PhD studies)
• Metal Studies (PhD studies)

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• Czech Foundrymen Society
• The Czech Society for New Materials and Technologies
• European Powder Metallurgy Association
• Editorial Board of the Manufacturing Technology magazine 

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• National Center of Excellence for Mechatronics and Smart Technologies in Engineering 2 (MESTEC 2), 2023-2025, TA ČR, projekt č. TN02000010, Národní centra kompetence 2, co-investigator.
• Mechanical Engineering of Biological and Bio-Inspired Systems (MEBioSys), 2023-2028, MŠMT, OP JAK, projekt č. CZ.02.01.01/00/22_008/0004634, co-investigator.
• BIODEGRADABLE: A Platform for Modern Implantology – Research on Customized Biodegradable Materials, 2025-2028, MŠMT, OP JAK, projekt č. CZ.02.01.01/00/23_020/0008512, co-investigator.
• Antibacterial Barrier in Human Joint Replacements, 2024-2027, MPO, OP TAK, projekt č. CZ.01.01.01/01/22_002/00009, co-investigator.
• GET Centre UJEP – Green Energy Technologies Centre of UJEP, 2025-2027, SFŽP, OP ST, projekt č. CZ.10.02.01/00/24_061/0000462, co-investigator.
• Research and development of new design principles for a non-invasively controlled growth segment for applications in oncology, traumatology, and orthopedics, 2025-2027, TA ČR, TREND, projekt č. FW12010005, co-investigator.

1. J. Kubásek, J. Pinc, K. Hosová, M. Straková, O. Molnárová, J. Duchon, D. Nečas, M. Čavojský, M. Knapek, M. Godec, I. Paulin, D. Vojtěch, J. Čapek: The evolution of microstructure and mechanical properties of Zn-0.8Mg-0.2Sr alloy prepared by casting and extrusion, J. Alloy. Compd. 906 (2022) 164308.
2. J. Pinc, A. Školáková, V. Hybášek, Š. Msallamová, P. Veřtát, P. Ashcheulov, M. Vondráček, J. Duchoň, I. McCarroll, M. Hývl, S. Banerjee, J. Drahokoupil, J. Kubásek, D. Vojtěch, J. Čapek: A detailed mechanism of degradation behaviour of biodegradable as-ECAPed Zn-0.8Mg-0.2Sr with emphasis on localized corrosion attack, Bioactive Materials 27 (2023) 447-460.
3. P. Minárik, K. Hosová, S. Šašek, J. Kubásek, J. Veselý, R. Král, M. Čavojský, J. Stráská, D. Vojtěch: Ignition-resistant Mg‐2Y‐2Gd‐1Ca alloy for aviation applications, J. Alloy. Compd. 948 (2023) 169683.
4. A. Strakosova, F. Průša, P. Jiricek, J. Houdková, A. Michalcová, D. Vojtěch: High-temperature exposure of the high-strength 18Ni-300 maraging steel manufactured by laser powder bed fusion: oxidation, structure and mechanical changes, J. Mat. Sci. 59 (2024) 15859-15882.
5. K. Hosová, J. Kubásek, D. Dvorský, P. Minárik, S. Šašek, A. Tsepelava, M. Čavojský, D. Vojtěch: Mg-based alloys with Y, Ca and Al reaching exceptional ignition resistance and suppressed flammability, J. Alloy. Compd. 1004 (2024) 175836.
6. A. Školáková, J. Pinc, E. Jablonská, T. Školáková, P. Veřtát, B. Janebová, A. Kůtová, J. Čapek, K. Hosová, D. Vojtěch: A zinc phosphate layered biodegradable Zn-0.8Mg-0.2Sr alloy: Characterization and mechanism of hopeite formation, Surf. Coat. Technol. 487 (2024) 130986.

1. D. Vojtěch: Chemical properties of aluminium and its alloys, v: Aluminium Materials and Technologies from A to Z (kap.2.5.), Adin, s.r.o., Prešov 2007, str. 105-108.
2. D. Vojtěch: Aluminium-matrix composites, v: Aluminium Materials and Technologies from A to Z (kap.10.1.), Adin, s.r.o., Prešov 2007, str. 543-559.
3. D. Vojtěch: Rapidly solidified aluminium alloys with ultra-high strength and thermal stability, v: Aluminium Materials and Technologies from A to Z (kap.10.2.), Adin, s.r.o.,  Prešov 2007, str. 560-570.
4. D. Vojtěch: Materiály a jejich mezní stavy, VŠCHT Praha (2010), 204 stran.
5. D. Vojtěch: Struktura a vlastnosti kovových materiálů, v: Konzervování a restaurování kovů, Ochrana předmětů kulturního dědictví z kovů a jejich slitin (kap. 2), Technické  muzeum v Brně, Brno 2011, str. 104-135.
6. D. Vojtěch: Vlastnosti zlata a stříbra, v: Konzervování a restaurování kovů, Ochrana předmětů kulturního dědictví z kovů a jejich slitin (kap. 7.5.1.), Technické muzeum v  Brně, Brno 2011, str. 471-473.

1. D. Vojtěch: A Method for Preparing Silicide Protective Coatings on Titanium, Its Alloys, and Intermetallics, patent n. CZ 299621 (2008).
2. D. Vojtěch: A thermally stable, lightweight aluminum-based alloy, utility model n. CZ 22315 U1 (2011).
3. D. Vojtěch, M. Novák: Method for Preparing Hard, Heat-Resistant Protective Coatings on Al-Si Alloys, Patent n. CZ 303477 (2012).
4. D. Vojtěch, J. Kubásek, Z. Čejka, J. Fencl: Magnesium alloy for biodegradable implants, utility model n. CZ 31364U1 (2018).
5. D. Vojtěch, J. Kubásek, P. Polách: Technology for the Production of a Biodegradable Magnesium Alloy Implant – Augmentation, a Proven Technology (2018).
6. D. Vojtěch, J. Kubásek, Z. Čejka: Technology for the production of a biodegradable magnesium alloy implant—a splint—a proven technology (2018).
7. D. Vojtěch, J. Kubásek, Z. Čejka: Technology for the production of a biodegradable magnesium alloy implant—an interference screw—a proven technology (2018).
8. J. Kubásek, D. Vojtěch, Z. Čejka: Biodegradable zinc alloy, utility model n. CZ 34221 U1 (2020).
9. J. Kubásek, D. Vojtěch, Z. Čejka: Biodegradable composite, utility model n. CZ 34398 U1 (2020).
10. Z. Čejka, D. Vojtěch, J. Gallo: Structured implant with a multifunctional layer, utility model n. 36939 (2023).
11. D. Vojtěch, Z. Čejka, J. Gallo: Multifunctional layer, utility model č. 36899 (2023).