Your search keyword '"Valentan, Bogdan"' showing total 14 results

1. Laminated Object Manufacturing vs. Fused Deposition Modeling – Machine Comparison

Author

Pilipovic, Ana, primary, Sercer, Mladen, additional, Stojanovic, Ivan, additional, Brajlih, Tomaz, additional, Drstvensek, Igor, additional, and Valentan, Bogdan, additional

Published

2011

2. Obdelava polyether etherketonea na 3D-tiskalniku za termoplastično modeliranje

Author

Valentan, Bogdan, Kadivnik, Žiga, Brajlih, Tomaž, Anderson, Andy, and Drstvenšek, Igor

Subjects

additive technology, FDM, implant, biocompatible, 3D-tiskalnik, medicinska aplikacija, PEEK, medical application, 3D printer, vsadek, termoplast, thermoplastic, udc:621.7:004.89, biokompatibilnost

Abstract

PEEK, poly(ether etherketone), is one of the high-quality industrial polymers. It is widely used in extremely demanding areas like automotive, aircraft and space industries. Because of the fact that it is bio-compatible, PEEK is also used for medical implants that are usually made by milling a block of the material. The article presents the results of an investigation of processing PEEK on a 3D printer for thermoplastic modelling. The used procedure is one of the additive manufacturing procedures and, as such, it builds a product by adding material layer by layer to get the finished product. Commercially available machines are unable to achieve the required melting and environment temperatures, so a new machine was developed. The machine was designed and built at the company Ortotip d.o.o. and it is able to produce the parts of up to 130 mm Ž 130 mm Ž 150 mm. After the initial testing, test specimens, according to standards EN ISO 527-2: 2012 and EN ISO 178: 2011, were produced and tested at the facilities of the PEEK manufacturer Invibio (from the UK). The article presents the steps taken when developing the PEEK modelling machine, the test methods to verify the mechanical properties of manufactured products and the results of the material testing. The machine was developed to produce medical implants (specific maxillofacial prosthesis), but with additional testing (that will help to improve the mechanical properties of produced parts) practically all bone-replacement implants can be made. PEEK, polyether etherketon, je eden izmed visoko kvalitetnih industrijskih polimerov. Uporablja se na zahtevnih področjih, kot so avtomobilska, letalska in vesoljska industrija. Zaradi dejstva, da je biokompatibilen, je uporaben tudi za medicinske vsadke, ki so navadno narejeni s frezanjem iz bloka materiala. Članek predstavlja izsledke raziskave oblikovanja PEEK s 3D-tiskalnikom za termoplastično modeliranje. Uporabljen postopek spada med tako imenovane dodajalne tehnologije in kot tak gradi izdelek po slojih. Komercialno dostopni stroji ne zmorejo doseči zahtevanih procesnih in okoljskih temperatur, zato je bila razvita nova naprava. Ta je bila oblikovana in izdelana v podjetju Ortotip, d. o. o., in je primerna za izdelke do velikosti 130 mm Ž 130 mm Ž 150 mm. Po uvodnih preizkusih so bile izdelane preizkusne epruvete v skladu s standardoma EN ISO 527-2: 2012 in EN ISO 178: 2011 in preizkušene od proizvajalca PEEK-materiala Invibio (iz VB). Predstavljeni so ključni koraki pri razvoju naprave za direktno izdelavo modelov, preizkusne metode za verifikacijo mehanskih lastnosti izdelanih kosov in rezultati meritev. Naprava je bila razvita za izdelavo medicinskih vsadkov (posebno lobanjske vsadke), vendar bo ob dodatnih preizkusih (za izboljšanje mehanskih lastnosti izdelanih kosov) primerna za vse vrste medicinskih vsadkov.

Published

2017

3. Processing poly(ether etherketone) an a 3D printer for thermoplastic modelling: Obdelava polyether etherketonea na 3D-tiskalniku za termoplastično modeliranje

Author

Anderson, Andy, Brajlih, Tomaž, Drstvenšek, Igor, Kadivnik, Žiga, and Valentan, Bogdan

Abstract

PEEK, poly(ether etherketone), is one of the high-quality industrial polymers. It is widely used in extremely demanding areas like automotive, aircraft and space industries. Because of the fact that it is bio-compatible, PEEK is also used for medical implants that are usually made by milling a block of the material. The article presents the results of an investigation of processing PEEK on a 3D printer for thermoplastic modelling. The used procedure is one of the additive manufacturing procedures and, as such, it builds a product by adding material layer by layer to get the finished product. Commercially available machines are unable to achieve the required melting and environment temperatures, so a new machine was developed. The machine was designed and built at the company Ortotip d.o.o. and it is able to produce the parts of up to 130 mm Ž 130 mm Ž 150 mm. After the initial testing, test specimens, according to standards EN ISO 527-2: 2012 and EN ISO 178: 2011, were produced and tested at the facilities of the PEEK manufacturer Invibio (from the UK). The article presents the steps taken when developing the PEEK modelling machine, the test methods to verify the mechanical properties of manufactured products and the results of the material testing. The machine was developed to produce medical implants (specific maxillofacial prosthesis), but with additional testing (that will help to improve the mechanical properties of produced parts) practically all bone-replacement implants can be made. PEEK, polyether etherketon, je eden izmed visoko kvalitetnih industrijskih polimerov. Uporablja se na zahtevnih področjih, kot so avtomobilska, letalska in vesoljska industrija. Zaradi dejstva, da je biokompatibilen, je uporaben tudi za medicinske vsadke, ki so navadno narejeni s frezanjem iz bloka materiala. Članek predstavlja izsledke raziskave oblikovanja PEEK s 3D-tiskalnikom za termoplastično modeliranje. Uporabljen postopek spada med tako imenovane dodajalne tehnologije in kot tak gradi izdelek po slojih. Komercialno dostopni stroji ne zmorejo doseči zahtevanih procesnih in okoljskih temperatur, zato je bila razvita nova naprava. Ta je bila oblikovana in izdelana v podjetju Ortotip, d. o. o., in je primerna za izdelke do velikosti 130 mm Ž 130 mm Ž 150 mm. Po uvodnih preizkusih so bile izdelane preizkusne epruvete v skladu s standardoma EN ISO 527-2: 2012 in EN ISO 178: 2011 in preizkušene od proizvajalca PEEK-materiala Invibio (iz VB). Predstavljeni so ključni koraki pri razvoju naprave za direktno izdelavo modelov, preizkusne metode za verifikacijo mehanskih lastnosti izdelanih kosov in rezultati meritev. Naprava je bila razvita za izdelavo medicinskih vsadkov (posebno lobanjske vsadke), vendar bo ob dodatnih preizkusih (za izboljšanje mehanskih lastnosti izdelanih kosov) primerna za vse vrste medicinskih vsadkov.

Published

2013

4. Development of a 3D printer for thermoplastic modelling

Author

Valentan, Bogdan, Pogačar, Dušan, Brajlih, Tomaž, Zupančič Hartner, Tjaša, Pilipović, Ana, and Drstvenšek, Igor

Subjects

udc:621.74:004.9, additive technologies, Polymers, rapid prototyping, FDM, additive technology, education, 3D print, polimeri, dodajalne tehnologije, hitra izdelava prototipov, polymers, 3d tisk

Abstract

Additive technologies are entering the market in all price segments and the development of new machines and materials is rapidly growing. Machines under 2000 EUR are more and more interesting for home and educational use. This paper presents the development of a 3D printer that shapes the parts layer by layer by depositing the material on a predefined position. The development is presented from the engineering point of view. The construction steps, the control and the actuator solutions are presented. The ABS plastic was analysed for its material properties. The 3D printer evolved from a prototype to the pre-production phase. Dodajalne tehnologije vstopajo na trg v vseh cenovnih segmentih, razvoj novih naprav in materialov pa je v konstantnem teku. Naprave s ceno pod 2000 EUR so vse bolj zanimive za uporabo doma in v izobraževalne namene. Članek prikazuje razvoj 3D-tiskalnika, ki izdela izdelek s ciljnim nalaganjem materiala na določena mesta posameznega sloja. Prikazan je inženirski pogled na razvoj. Predstavljeni so konstrukcijski koraki in rešitev vodenja. Analizirane so bile lastnosti materiala ABS. Izdelek je prešel prototipno fazo in je sedaj v predproizvodni fazi.

Published

2012

5. Development of a 3D printer for thermoplastic modelling: Razvoj 3D-tiskalnika za termoplastično modeliranje

Author

Brajlih, Tomaž, Drstvenšek, Igor, Pilipović, Ana, Pogačar, Dušan, Valentan, Bogdan, and Zupančič Hartner, Tjaša

Abstract

Additive technologies are entering the market in all price segments and the development of new machines and materials is rapidly growing. Machines under 2000 EUR are more and more interesting for home and educational use. This paper presents the development of a 3D printer that shapes the parts layer by layer by depositing the material on a predefined position. The development is presented from the engineering point of view. The construction steps, the control and the actuator solutions are presented. The ABS plastic was analysed for its material properties. The 3D printer evolved from a prototype to the pre-production phase. Dodajalne tehnologije vstopajo na trg v vseh cenovnih segmentih, razvoj novih naprav in materialov pa je v konstantnem teku. Naprave s ceno pod 2000 EUR so vse bolj zanimive za uporabo doma in v izobraževalne namene. Članek prikazuje razvoj 3D-tiskalnika, ki izdela izdelek s ciljnim nalaganjem materiala na določena mesta posameznega sloja. Prikazan je inženirski pogled na razvoj. Predstavljeni so konstrukcijski koraki in rešitev vodenja. Analizirane so bile lastnosti materiala ABS. Izdelek je prešel prototipno fazo in je sedaj v predproizvodni fazi.

Published

2012

6. 18th World Fair for Moldmaking and Tooling, Rapid Manufacturing and 3D Scanning – EuroMold 2011

Author

Pilipović, Ana and Valentan, Bogdan

Subjects

Kalupi, materijali, slojeviti postupci

Abstract

18th World Fair for Moldmaking and Tooling, Rapid Manufacturing and 3D Scanning – EuroMold 2011 EuroMold, the world fair for moldmaking, tooling, rapid manufacturing, design, and application development was held from November 29 till December 2, 2011 in Frankfurt/Main, with successful concept From Design to Prototyping to Series Production. The core areas at EuroMold were Moldmaking and Tooling as well as Rapid Prototyping, Patternmaking and Prototypes, CAD/CAM, Simulation/VR, Ma chine Tools and Tools, Engineering, Design and many more. A special section House of Creation was organized as part of the Fair, which united the following topics: design and engineering, materials, virtual reality and simulation and rapid prototyping and manufacturing and the 13th International conference Design Innovation from Additive Manufacturing, organized by the Wohlers Associate Inc. Korea was the partner country of EuroMold 2011. The next World Fair EuroMold 2012 will take place from November 27 till November 30, 2012.

Published

2011

7. DEVELOPMENT OF A PART-COMPLEXITY EVALUATION MODEL FOR APPLICATION IN ADDITIVE FABRICATION TECHNOLOGIES

Author

Valentan, Bogdan and Balič, Jože

Subjects

COMPLEXITY, ZAHTEVNOST, SLOJEVITE TEHNOLOGIJE, RAPID PROTOTYPING, OBLIKA, TECHNOLOGY CHOOSING, STL, HITRA IZDELAVA, SHAPE, udc:621.7.07(043.3), IZBIRA TEHNOLOGIJE, LAYERED TECHNOLOGY

Abstract

S skokovitim razvojem in razmahom naprav za proizvodnjo, tako klasičnih odrezovalnih kot postopkov slojevitih tehnologij (znanih tudi kot 3D tiskalniki), se pojavi vprašanje, kako med množico tehnologij in naprav izbrati ustrezno. Delo opisuje osnovne značilnosti STL formata, kot izhodne CAD datoteke, ki predstavlja osnovo za analizo in razvoj postopkov določevanja kompleksnosti oblike samega modela. Predstavljenih je več modelov iz realnega okolja, na katerih je izvedena analiza vhodnih podatkov in postopek določevanja kompleksnosti oblike. Predstavljeni so aktualni izdelovalni postopki, primerni tako za izdelavo unikatnih izdelkov kot tudi za serijsko izdelavo, s posebnim poudarkom na slojevitih tehnologijah. Na osnovi temeljnih lastnosti izdelovalnih tehnologij so analizirani testni modeli in s pomočjo ocene kompleksnosti določeni primerni postopki izdelave oziroma čas, potreben za poobdelavo posameznega izdelka, izdelanega po postopkih slojevitih tehnologij. Rezultati so primerljivi z izkustveno določitvijo izdelovalnega postopka na osnovi ocene strokovnjakov, sistem določevanja izdelovalnega postopka je mogoče z manjšimi prilagoditvami praktično uporabiti. With the rapid development and expansion of devices for the production of both traditional (cutting) procedures and layered technologies (also known as 3D printers or rapid prototyping/manufacturing), the question arises as to how to find the appropriate production technology. This work describes the basic features of the CAD output file STL. The STL file format is a widely-used file format developed for layered technologies and, as such, a basis for analysing and developing methods when determining the complexity of a model. Several real-life models are presented for the analyses of basic data, and complexity determination. Actual manufacturing procedures suitable for the manufacture of unique products or serial production are presented, with accentuation towards layered technologies. Technological test models are analyzed based on the fundamental properties of manufacturing and certain manufacturing processes are chosen using complexity estimation. Complexity evaluation is also used for post processing time determination. The results are comparable with those choices of manufacturing procedures on the basis of experts' estimates the system of determining manufacturing procedures on the basis of model-complexity has practical usage.

Published

2010

8. Influence of laser sintering parameters on mechanical properties of polymer products

Author

Pilipović, Ana, Valentan, Bogdan, Brajlih, Tomaž, Haramina, Tatjana, Balič, Jože, Kodvanj, Janoš, Šercer, Mladen, Drstvenšek, Igor, and Drstvenšek, I., Katalinić, B., Dolinšek, S.

Subjects

Selective laser sintering, speed, laser power, properties of polymer product

Abstract

With Additive Manufacturing - AM it is possible to create physical models, prototypes, components, tools and functional parts from 3D data constructed using the computer (CAD), with complicated geometry, which is very difficult or even impossible to do with other manufacturing technologies. AM processes for the manufacturing of prototypes use metals, ceramics and polymers in the form of liquids, powders, wire, foil, etc. However, there are many limitations, primarily in the selection of materials. Therefore, it is necessary to know the material properties, and how the various parameters of the machine influence on them, especially if it is manufacturing functional parts. The paper provides a brief overview of Selective Laser Sintering – SLS, and how the machine parameters (layer thickness, speed and power of laser) influence the mechanical properties of materials (tensile properties and hardness).

Published

2010

9. Industrial ethernet

Author

Valentan, Bogdan and Čučej, Žarko

Subjects

Ethernet, komunikacije, communication, udc:004.7(043.2), industrijski Ethernet, industrial Ethernet, Hiper Ring

Published

2008

10. Development of hybrid drive vehicle with flexible regulation of torque of assistant drive

Author

Valentan, Bogdan, Šafarič, Riko, and Drstvenšek, Igor

Subjects

udc:629.11(043.2), dvojni pogon, ekološka vozila, bowden steering, hybride vehicles, bovden poteg, ecological vehicles, alternativna vozila, alternative vehicle, hibridna vozila, double drive

Published

2008

11. Univerzitetni interdisciplinarni študij Mehatronika na Univerzi v Mariboru - študij za prihodnost

Author

Drstvenšek, Igor, Šafarič, Riko, and Valentan, Bogdan

Published

2007

12. Possibilities of Using Three-Dimensional Optical Scanning in Complex Geometrical Inspection

Author

Brajlih, Tomaz, primary, Tasic, Tadej, additional, Drstvensek, Igor, additional, Valentan, Bogdan, additional, Hadzistevic, Miodrag, additional, Pogacar, Vojko, additional, Balic, Joze, additional, and Acko, Bojan, additional

Published

2011

13. Development of a Part-Complexity Evaluation Model for Application in Additive Fabrication Technologies

Author

Valentan, Bogdan, primary, Brajlih, Tomaž, additional, Drstvenšek, Igor, additional, and Balič, Jože, additional

Published

2011

14. A FAST METHOD TO PREDICT THE COOLING TIME OF WAX FOR INVESTMENT CASTING PROCEDURE.

Author

Valentan, Bogdan, Pilipovic, Ana, Brajlih, Tomaz, Sever, Peter, Pahole, Ivo, Ficko, Mirko, Balic, Joze, and Drstvensek, Igor

Subjects

*PRECISION casting, *COOLING, *STEEL founding, *RAPID tooling, *WAXES, *STEREOLITHOGRAPHY

Abstract

The investment casting of metal parts is a rapid tooling/manufacturing method for small series production, where wax pattern is produced separately and then extracted from the mould. The wax parts commonly used as patterns are usually obtained after wax casting silicone rubber moulds. The time needed for the wax to solidify is critical and difficult to predict. This article presents an experimental method for cooling-time determination using a simplified applicable solution (needed in hash industrial environment and short deadlines) based on real-life parts experience. [ABSTRACT FROM AUTHOR]

Published

2012