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Original title:
Interconnection of three-dimensional printing, material science and bone tissue engineering for creating ideal bone scaffolds
Authors: Šromová, Veronika
Document type: Papers
Language: eng
Publisher: Vysoké učení technické v Brně, Fakulta elektrotechniky a komunikačních technologií
Abstract: The interconnection of three-dimensional (3D) printing, material science, and bone tissue engineering holds immense promise in the realm of scaffold development for bone repair. This work delves into the intricate interplay between various factors influencing the success hydroxyapatite biomaterials in bone regeneration, including material selection, porosity, structural design, surface modification, and other mechanical characteristics. Our aim is the pursuit of ideal biomaterials possessing both favorable biological responses and mechanical integrity. Fourier transform infrared spectroscopy (FTIR) is used to analyze the chemical structure of the material, particularly the chemical bonds present. Using SEM, we were subsequently able to analyze the microstructure and nanostructure of the 3D printed hydroxyapatite sample.
Keywords: 3D printing; FTIR; hydroxyapatite; SEM
Host item entry: Proceedings I of the 30st Conference STUDENT EEICT 2024: General papers, ISBN 978-80-214-6231-1, ISSN 2788-1334
Institution: Brno University of Technology (web)
Document availability information: Fulltext is available in the Brno University of Technology Digital Library.
Original record: https://hdl.handle.net/11012/249212
Permalink: http://www.nusl.cz/ntk/nusl-622546
The record appears in these collections:
Universities and colleges > Public universities > Brno University of Technology
Conference materials > Papers
Authors: Šromová, Veronika
Document type: Papers
Language: eng
Publisher: Vysoké učení technické v Brně, Fakulta elektrotechniky a komunikačních technologií
Abstract: The interconnection of three-dimensional (3D) printing, material science, and bone tissue engineering holds immense promise in the realm of scaffold development for bone repair. This work delves into the intricate interplay between various factors influencing the success hydroxyapatite biomaterials in bone regeneration, including material selection, porosity, structural design, surface modification, and other mechanical characteristics. Our aim is the pursuit of ideal biomaterials possessing both favorable biological responses and mechanical integrity. Fourier transform infrared spectroscopy (FTIR) is used to analyze the chemical structure of the material, particularly the chemical bonds present. Using SEM, we were subsequently able to analyze the microstructure and nanostructure of the 3D printed hydroxyapatite sample.
Keywords: 3D printing; FTIR; hydroxyapatite; SEM
Host item entry: Proceedings I of the 30st Conference STUDENT EEICT 2024: General papers, ISBN 978-80-214-6231-1, ISSN 2788-1334
Institution: Brno University of Technology (web)
Document availability information: Fulltext is available in the Brno University of Technology Digital Library.
Original record: https://hdl.handle.net/11012/249212
Permalink: http://www.nusl.cz/ntk/nusl-622546
The record appears in these collections:
Universities and colleges > Public universities > Brno University of Technology
Conference materials > Papers
Record created 2024-07-21, last modified 2024-07-21