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Bartłomiej Adam Wysocki
Bartłomiej Adam Wysocki
Other namesBartlomiej Wysocki
Cardinal Stefan Wyszynski University in Warsaw, Warsaw University of Technology, MaterialsCare LTD
Verified email at uksw.edu.pl - Homepage
Title
Cited by
Cited by
Year
Laser and electron beam additive manufacturing methods of fabricating titanium bone implants
B Wysocki, P Maj, R Sitek, J Buhagiar, KJ Kurzydłowski, W Święszkowski
Applied Sciences 7 (7), 657, 2017
2502017
Microstructure and mechanical properties investigation of CP titanium processed by selective laser melting (SLM)
B Wysocki, P Maj, A Krawczyńska, K Rożniatowski, J Zdunek, ...
Journal of Materials Processing Technology 241, 13-23, 2017
1762017
Post processing and biological evaluation of the titanium scaffolds for bone tissue engineering
B Wysocki, J Idaszek, K Szlązak, K Strzelczyk, T Brynk, KJ Kurzydłowski, ...
Materials 9 (3), 197, 2016
952016
The influence of chemical polishing of titanium scaffolds on their mechanical strength and in-vitro cell response
B Wysocki, J Idaszek, J Buhagiar, K Szlązak, T Brynk, KJ Kurzydłowski, ...
Materials Science and Engineering: C 95, 428-439, 2019
902019
The influence of pore size variation on the pressure drop in open-cell foams
J Skibinski, K Cwieka, T Kowalkowski, B Wysocki, T Wejrzanowski, ...
Materials & Design 87, 650-655, 2015
602015
The influence of selective laser melting (SLM) process parameters on in-vitro cell response
B Wysocki, J Idaszek, J Zdunek, K Rożniatowski, M Pisarek, A Yamamoto, ...
International journal of molecular sciences 19 (6), 1619, 2018
572018
New approach to amorphization of alloys with low glass forming ability via selective laser melting
Ł Żrodowski, B Wysocki, R Wróblewski, A Krawczyńska, ...
Journal of Alloys and Compounds 771, 769-776, 2019
562019
Investigation of the relationship between morphology and permeability for open-cell foams using virtual materials testing
D Westhoff, J Skibinski, O Šedivý, B Wysocki, T Wejrzanowski, V Schmidt
Materials & Design 147, 1-10, 2018
342018
In situ alloying of NiTi: Influence of Laser Powder Bed Fusion (LBPF) scanning strategy on chemical composition
A Chmielewska, B Wysocki, J Buhagiar, B Michalski, B Adamczyk-Cieślak, ...
Materials Today Communications 30, 103007, 2022
282022
Chemical polishing of additively manufactured, porous, nickel–titanium skeletal fixation plates
A Chmielewska, A Jahadakbar, B Wysocki, M Elahinia, W Święszkowski, ...
3D Printing and Additive Manufacturing 9 (4), 269-277, 2022
232022
Novel cold crucible ultrasonic atomization powder production method for 3D printing
Ł Żrodowski, R Wróblewski, T Choma, B Morończyk, M Ostrysz, ...
Materials 14 (10), 2541, 2021
222021
The Novel Scanning Strategy For Fabrication Metallic Glasses By Selective Laser Melting
Ł Żrodowski, B Wysocki, R Wróblewski, KJ Kurzydłowski, W Święszkowski
Fraunhofer Direct Digital Manufacturing Conference Proceedings, 1-6, 2016
162016
Heat treatment of NiTi alloys fabricated using laser powder bed fusion (LPBF) from elementally blended powders
A Chmielewska, B Wysocki, P Kwaśniak, MJ Kruszewski, B Michalski, ...
Materials 15 (9), 3304, 2022
142022
Methods of topical administration of drugs and biological active substances for dental implants—A narrative review
P Wychowański, A Starzyńska, P Adamska, M Słupecka-Ziemilska, ...
Antibiotics 10 (8), 919, 2021
142021
Laser powder bed fusion (LPBF) of NiTi alloy using elemental powders: The influence of remelting on printability and microstructure
A Chmielewska, BA Wysocki, E Gadalińska, E MacDonald, ...
Rapid Prototyping Journal 28 (10), 1845-1868, 2022
102022
Analysis of microstructure and properties of a Ti–AlN composite produced by selective laser melting
R Sitek, M Szustecki, L Zrodowski, B Wysocki, J Jaroszewicz, ...
Materials 13 (10), 2218, 2020
82020
Hybrid solid-porous titanium scaffolds: Fabrication and post processing after selective laser melting
A Chmielewska, BA Wysocki, Ł Żrodowski, W Święszkowski
Transactions on Additive Manufacturing Meets Medicine 1 (1), 2019
82019
Biological and corrosion evaluation of in situ alloyed NiTi fabricated through laser powder bed fusion (LPBF)
A Chmielewska, A Dobkowska, E Kijeńska-Gawrońska, M Jakubczak, ...
International journal of molecular sciences 22 (24), 13209, 2021
72021
Novel design for an additively manufactured nozzle to produce tubular scaffolds via fused filament fabrication
B Shaqour, Ż Górecka, A Chmielewska, B Wysocki, M Heljak, M Gernaey, ...
Additive Manufacturing 49, 102467, 2022
62022
Porous Titanium Scaffold Fabrication For Bone Tissue Engineering By SLM (Selective Laser Melting) Method
B Wysocki, W Swieszkowski, KJ Kurzydlowski
Proceedings of the Fraunhofer Direct Digital Manufacturing Conference, 1-4, 2014
52014
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Articles 1–20