Reçine 3D yazıcı ürünlerinin biyo-uyumluluk incelemesi
Year 2021,
Volume: 10 Issue: 2, 67 - 72, 16.12.2021
Bünyamin Çiçek
,
Tuna Aydoğmuş
,
Yavuz Sun
Abstract
Bu çalışmada incelenen reçine 3D yazıcılar son yıllarda birçok aşamada kullanılmaktadır. Bu alanların başında biyo çalışmalar giderek önem kazanmaktadır. Buradan yola çıkarak bu çalışmada reçine 3D yazıcılarda üretilen monomer temelli bir epoksi reçineden UV ışın dalga boyundan yararlanılarak üretilen bir numunenin biyo – uyumluluğu incelenmiştir. Belli şartlarda üretilen epoksi reçine ürün biyo uyumluluk adına sitotoksisite testine tabi tutulmuştur. Bu deneyin sonucu olarak elde edilen % canlılık oranlarına göre biyo uyumlu olarak raporlanan bu numunenin bir biyo malzeme olarak kullanımı yorumlanmıştır. Son olarak reçine numune taramalı elektron mikroskobu (SEM) ile incelenmiştir.
References
- [1] Weng, Z., Zhou, Y., Lin, W., Senthil, T., Wu, L., "Structure-property relationship of nano enhanced stereolithography resin for desktop SLA 3D printer", Composites Part A: Applied Science and Manufacturing, 88, 234-242, 2016
- [2] Liska, R., Schuster, M., Inführ, R., Turecek, C., Fritscher, C., Seidl, B., Schmidt, V., Kuna, L., Haase, A., Varga, F., "Photopolymers for rapid prototyping", Journal of Coatings Technology and Research, 4, 505-510, 2007
- [3] Joseph, V. S., Calais, T., Stalin, T., Jain, S., Thanigaivel, N. K., Sanandiya, N. D., Y Alvarado, P. V., "Silicone/epoxy hybrid resins with tunable mechanical and interfacial properties for additive manufacture of soft robots", Applied Materials Today, 22, 100979, 2021
- [4] Zahedi-Tabar, Z., Bagheri-Khoulenjani, S., Mirzadeh, H., Amanpour, S., "3D in vitro cancerous tumor models: Using 3D printers", Medical hypotheses, 124, 91-94, 2019
- [5] Mehmet, G., "Biyomedikal Mühendisliğinde Kullanım Amaçlı 3D Yazıcı Geliştirilmesi", International Journal of 3D Printing Technologies and Digital Industry, 2, 85-92, 2018
- [6] Can, A., Aslan, İ., "Katmanlı üretim ile elde üretilmiş kum döküm kalıpların incelenmesi", Düzce Üniversitesi Bilim ve Teknoloji Dergisi, 6, 1269-1282, 2018
- [7] Borrello, J., Nasser, P., Iatridis, J. C., Costa, K. D., "3D printing a mechanically-tunable acrylate resin on a commercial DLP-SLA printer", Additive manufacturing, 23, 374-380, 2018
- [8] Postiglione, G., Natale, G., Griffini, G., Levi, M., Turri, S., "Conductive 3D microstructures by direct 3D printing of polymer/carbon nanotube nanocomposites via liquid deposition modeling", Composites Part A: Applied Science and Manufacturing, 76, 110-114, 2015
- [9] Shah, S., Megat-Yusoff, P., Karuppanan, S., Choudhry, R., Ahmad, F., Sajid, Z., Gerard, P., Sharp, K., "Performance comparison of resin-infused thermoplastic and thermoset 3D fabric composites under impact loading", International Journal of Mechanical Sciences, 189, 105984, 2020
- [10] Trofimov, A., Le-Pavic, J., Ravey, C., Albouy, W., Therriault, D., Lévesque, M., "Multi-scale modeling of distortion in the non-flat 3D woven composite part manufactured using Resin Transfer Molding", Composites Part A: Applied Science and Manufacturing, 106145, 2020
- [11] Zhang, Y., Yin, M.-J., Ouyang, X., Zhang, A. P., Tam, H.-Y., "3D μ-printing of polytetrafluoroethylene microstructures: A route to superhydrophobic surfaces and devices", Applied Materials Today, 19, 100580, 2020
- [12] Chatwin, C., Farsari, M., Huang, S., Heywood, M., Young, R., Birch, P., Claret-Tournier, F., Richardson, J., "Characterisation of epoxy resins for microstereolithographic rapid prototyping", The International Journal of Advanced Manufacturing Technology, 15, 281-286, 1999
- [13] Dziubek, T., Oleksy, M., "Application of ATOS II optical system in the techniques of rapid prototyping of epoxy resin-based gear models/Zastosowanie systemu optycznego ATOS II w technikach szybkiego prototypowania modeli kol zebatych otrzymywanych na bazie zywicy epoksydowej", Polimery, 62, 44-53, 2017
- [14] Huang, T.-H., Yang, J.-J., Li, H., Kao, C.-T., "The biocompatibility evaluation of epoxy resin-based root canal sealers in vitro", Biomaterials, 23, 77-83, 2002
- [15] Cintra, L. T. A., Benetti, F., De Azevedo Queiroz, Í. O., Ferreira, L. L., Massunari, L., Bueno, C. R. E., De Oliveira, S. H. P., Gomes-Filho, J. E., "Evaluation of the cytotoxicity and biocompatibility of new resin epoxy–based endodontic sealer containing calcium hydroxide", Journal of endodontics, 43, 2088-2092, 2017
- [16] Çelebi, A., Tosun, H., Önçağ, A. Ç., "Hasarlı bir kafatasının üç boyutlu yazıcı ile imalatı ve implant tasarımı", International Journal of 3D Printing Technologies and Digital Industry, 1, 27-35, 2017
- [17] Wallin, R. F., "A Practical Guide to ISO 10993-12: Sample Preparation and Reference Materials", MDDI: Los Angeles, CA, USA, 1998
- [18] Wallin, R. F., Arscott, E., "A practical guide to ISO 10993-5: Cytotoxicity", Medical Device and Diagnostic Industry, 20, 96-98, 1998
- [19] Elomaa, L., Keshi, E., Sauer, I. M., Weinhart, M., "Development of GelMA/PCL and dECM/PCL resins for 3D printing of acellular in vitro tissue scaffolds by stereolithography", Materials Science and Engineering: C, 110958, 2020
Year 2021,
Volume: 10 Issue: 2, 67 - 72, 16.12.2021
Bünyamin Çiçek
,
Tuna Aydoğmuş
,
Yavuz Sun
References
- [1] Weng, Z., Zhou, Y., Lin, W., Senthil, T., Wu, L., "Structure-property relationship of nano enhanced stereolithography resin for desktop SLA 3D printer", Composites Part A: Applied Science and Manufacturing, 88, 234-242, 2016
- [2] Liska, R., Schuster, M., Inführ, R., Turecek, C., Fritscher, C., Seidl, B., Schmidt, V., Kuna, L., Haase, A., Varga, F., "Photopolymers for rapid prototyping", Journal of Coatings Technology and Research, 4, 505-510, 2007
- [3] Joseph, V. S., Calais, T., Stalin, T., Jain, S., Thanigaivel, N. K., Sanandiya, N. D., Y Alvarado, P. V., "Silicone/epoxy hybrid resins with tunable mechanical and interfacial properties for additive manufacture of soft robots", Applied Materials Today, 22, 100979, 2021
- [4] Zahedi-Tabar, Z., Bagheri-Khoulenjani, S., Mirzadeh, H., Amanpour, S., "3D in vitro cancerous tumor models: Using 3D printers", Medical hypotheses, 124, 91-94, 2019
- [5] Mehmet, G., "Biyomedikal Mühendisliğinde Kullanım Amaçlı 3D Yazıcı Geliştirilmesi", International Journal of 3D Printing Technologies and Digital Industry, 2, 85-92, 2018
- [6] Can, A., Aslan, İ., "Katmanlı üretim ile elde üretilmiş kum döküm kalıpların incelenmesi", Düzce Üniversitesi Bilim ve Teknoloji Dergisi, 6, 1269-1282, 2018
- [7] Borrello, J., Nasser, P., Iatridis, J. C., Costa, K. D., "3D printing a mechanically-tunable acrylate resin on a commercial DLP-SLA printer", Additive manufacturing, 23, 374-380, 2018
- [8] Postiglione, G., Natale, G., Griffini, G., Levi, M., Turri, S., "Conductive 3D microstructures by direct 3D printing of polymer/carbon nanotube nanocomposites via liquid deposition modeling", Composites Part A: Applied Science and Manufacturing, 76, 110-114, 2015
- [9] Shah, S., Megat-Yusoff, P., Karuppanan, S., Choudhry, R., Ahmad, F., Sajid, Z., Gerard, P., Sharp, K., "Performance comparison of resin-infused thermoplastic and thermoset 3D fabric composites under impact loading", International Journal of Mechanical Sciences, 189, 105984, 2020
- [10] Trofimov, A., Le-Pavic, J., Ravey, C., Albouy, W., Therriault, D., Lévesque, M., "Multi-scale modeling of distortion in the non-flat 3D woven composite part manufactured using Resin Transfer Molding", Composites Part A: Applied Science and Manufacturing, 106145, 2020
- [11] Zhang, Y., Yin, M.-J., Ouyang, X., Zhang, A. P., Tam, H.-Y., "3D μ-printing of polytetrafluoroethylene microstructures: A route to superhydrophobic surfaces and devices", Applied Materials Today, 19, 100580, 2020
- [12] Chatwin, C., Farsari, M., Huang, S., Heywood, M., Young, R., Birch, P., Claret-Tournier, F., Richardson, J., "Characterisation of epoxy resins for microstereolithographic rapid prototyping", The International Journal of Advanced Manufacturing Technology, 15, 281-286, 1999
- [13] Dziubek, T., Oleksy, M., "Application of ATOS II optical system in the techniques of rapid prototyping of epoxy resin-based gear models/Zastosowanie systemu optycznego ATOS II w technikach szybkiego prototypowania modeli kol zebatych otrzymywanych na bazie zywicy epoksydowej", Polimery, 62, 44-53, 2017
- [14] Huang, T.-H., Yang, J.-J., Li, H., Kao, C.-T., "The biocompatibility evaluation of epoxy resin-based root canal sealers in vitro", Biomaterials, 23, 77-83, 2002
- [15] Cintra, L. T. A., Benetti, F., De Azevedo Queiroz, Í. O., Ferreira, L. L., Massunari, L., Bueno, C. R. E., De Oliveira, S. H. P., Gomes-Filho, J. E., "Evaluation of the cytotoxicity and biocompatibility of new resin epoxy–based endodontic sealer containing calcium hydroxide", Journal of endodontics, 43, 2088-2092, 2017
- [16] Çelebi, A., Tosun, H., Önçağ, A. Ç., "Hasarlı bir kafatasının üç boyutlu yazıcı ile imalatı ve implant tasarımı", International Journal of 3D Printing Technologies and Digital Industry, 1, 27-35, 2017
- [17] Wallin, R. F., "A Practical Guide to ISO 10993-12: Sample Preparation and Reference Materials", MDDI: Los Angeles, CA, USA, 1998
- [18] Wallin, R. F., Arscott, E., "A practical guide to ISO 10993-5: Cytotoxicity", Medical Device and Diagnostic Industry, 20, 96-98, 1998
- [19] Elomaa, L., Keshi, E., Sauer, I. M., Weinhart, M., "Development of GelMA/PCL and dECM/PCL resins for 3D printing of acellular in vitro tissue scaffolds by stereolithography", Materials Science and Engineering: C, 110958, 2020