PARTICULAR QUALITIES OF THE DEVELOPMENT AND APPLICATION OF FDM-TECHNOLOGY FOR CREATING AND PROTOTYPING 3D-OBJECTS
Abstract
The article gives comparative analysis of additive technologies used in prototyping 3D-objects, and features of the FDM-technology are characterized. The parameters of the 3D printer using FDM-technology are described, and also variants of its modification are offered. The prospects for applying the obtained results to improve the process of 3D-printing and developed proposals for the modeling of technical systems in training courses for students and postgraduates of IT-specialties are indicated.
References
2. SHajhutdinov T.F., Gil'manova A.M. 3D-printery v sovremennom mire i obrazovanii // Materialy 42-j Mezhdunarodnoj nauchno-tekhnicheskoj konferencii molodyh uchenyh, aspirantov i studentov: sbornik nauchnyh trudov v 2 t. T. 1. – Ufa: UGNTU, 2015. – S. 323–334.
3. Astahova T.N., Kapanov A.A., Kosolapov V.V., Meshcheryakov E.E. Primenenie sistem 3D-pechati dlya prototipirovaniya tekhnicheskih idej // EHlektronnye biblioteki. – 2017. – T.20. – №2. – S.110–120.
4. Kanessa EH., Fonda K., Zennaro M. Dostupnaya 3D-pechat' dlya nauki, obrazovaniya i ustojchivogo razvitiya. – Izd-vo: MCTF, 2013. – 192 s.
5. Okladnikova T.V., Litvinceva E.A., Okladnikov A.P., Nevedimova L.V. 3D-pechat' v obrazovanii // Sbornik nauchnyh trudov po materialam Mezhdunarodnoj nauchno-prakticheskoj konferencii «Nauka i obrazovanie v XXI veke». – Tambov, 2014. – S. 108-109.
6. Lejbov A.M., Kamenev R.V., Osokina O.M. Primenenie tekhnologij 3D-prototipirovaniya v obrazovatel'nom processe // Sovremennye problemy nauki i obrazovaniya. – 2014. – № 5. – S. 93.
7. Eisenberg M. 3D printing for children: What to build next? // International Journal of Child-Computer Interaction. 2013. №1. S. 7–13.
8. Syabrenko A. P., Tynchenko V.S. Ispol'zovanie tekhnologii 3D-pechati v obrazovatel'nom processe vuza // Razvitie sovremennogo obrazovaniya: teoriya, metodika i praktika: materialy VII Mezhdunar. nauch.–prakt. konf. – CHeboksary: CNS «Interaktiv plyus», 2016. – № 1 (7). – S. 244–247.
9. Zasedatel' V.S. Obrazovatel'nyj potencial tekhnologij bystrogo prototipirovaniya // Internet-zhurnal «Naukovedenie». – Tom 7. – №5 (2015). – http://naukovedenie.ru/PDF/220PVN515.pdf
10. Filippova O.A. Primenenie tekhnologii trekhmernoj pechati v uchebnom processe po discipline «Inzhenernaya grafika» // Nauka, tekhnika i obrazovaniya. – 2015. – № 10. S. 126–130.
11. Abrosimov S.N., Tihonov-Bugrov D.E. 3D-pechat' kak sostavlyayushchaya chast' uchebnogo processa po geometro-graficheskim disciplinam // Kachestvo graficheskoj podgotovki: materialy VII Mezhdunarodnoj internet-konferencii . – 2017. – http://dgng.pstu.ru/conf2017/papers/
12. Zelencov V.V., SHCHeglov G.A. Opyt integracii CAD-tekhnologij i 3D-pechati v uchebnom plane podgotovki inzhenerov // Otkrytoe obrazovanie. – 2016. – № 5. – S. 27–34.
13. Kushnir A.P., Livshic V.B. Klassifikaciya tekhnologij 3D pechati // Recenziruemoe periodicheskoe setevoe nauchnoe izdanie «Dizajn. Teoriya i praktika». – 2014. – №18. http://enidtp.ru/download/185/
14. Trubicyn A.A. Razrabotka 3-D printera na osnove metoda poslojnogo izgotovleniya ob"ekta // Sistemy upravleniya, tekhnicheskie sistemy: ustojchivost', stabilizaciya, puti i metody issledovaniya: materialy nauchno-prakticheskoj konferencii. – Elec: Eleckij gosudarstvennyj universitet im. I.A. Bunina, – 2017. – S.135–140.
15. Bushueva V. V., Emel'yanova A.M. Ispol'zovanie innovacionnogo oborudovaniya pri podgotovke budushchih uchitelej tekhnologii // Novoe slovo v nauke: perspektivy razvitiya: materialy VIII Mezhdunarodnoj nauchno-prakticheskoj konferencii. – CHeboksary: CNS «Interaktiv plyus», 2016. – № 2 (8). – S. 67–68.
16. Golovko I.S. Inzhenernoe 3D-modelirovanie i prototipirovanie v shkole // Nauka i obrazovanie: vektory razvitiya: materialy Mezhdunarodnoj nauchno-prakticheskoj konferencii i Vserossijskih pedagogicheskih chtenij. – CHeboksary: EHkspertno-metodicheskij centr, 2016. – S. 266–271.
This work is licensed under a Creative Commons Attribution 4.0 International License.
Publication policy of the journal is based on traditional ethical principles of the Russian scientific periodicals and is built in terms of ethical norms of editors and publishers work stated in Code of Conduct and Best Practice Guidelines for Journal Editors and Code of Conduct for Journal Publishers, developed by the Committee on Publication Ethics (COPE). In the course of publishing editorial board of the journal is led by international rules for copyright protection, statutory regulations of the Russian Federation as well as international standards of publishing.
Authors publishing articles in this journal agree to the following: They retain copyright and grant the journal right of first publication of the work, which is automatically licensed under the Creative Commons Attribution License (CC BY license). Users can use, reuse and build upon the material published in this journal provided that such uses are fully attributed.
