1. Razvoj in oblikovanje rekreacijskega vozilaMatija Perš, 2025, diplomsko delo Opis: V diplomski nalogi je predstavljen razvoj in oblikovanje rekreacijskega vozila s poudarkom na optimizaciji notranje postavitve, stabilizacijskega sistema in električni samooskrbi. Razvili smo modularno notranjo opremo ki omogoča prilagodljivost in maksimalno izrabo prostora. Uporabili smo računalniško podprto konstruiranje(CAD) v programu Creo. Električni sistem temelji na Mastervolt inverterju, ki zagotavlja avtonomno napajanje. Rezultati kažejo, da vozilo ponuja visoko funkcionalnost in udobje za uporabnike, hkrati pa omogoča energetsko neodvisnost in stabilno uporabo na različnih terenih
Ključne besede: Rekreacijsko vozilo, razvoj, predelava
Objavljeno v DKUM: 08.05.2025; Ogledov: 0; Prenosov: 0 |
2. Rekonstrukcija reduktorja za napredovalni stroj GPK-PV : diplomsko deloJan Jevšnik, 2024, diplomsko delo Opis: V diplomskem delu se bomo ukvarjali z izdelavo ohišja za reduktor napredovalnega stroja GPK-PV, ki je zelo pomemben stroj za podjetje Premogovnik Velenje d.o.o. Stroj je podjetje dolga leta razvijalo in je tako certificiran ter razvit v Sloveniji. Jekleni odlitki napredovalnega stroja GPK-PV so se do sedaj proizvajali v Rusiji, zaradi ruske invazije na Ukrajino pa je EU uvedla embargo na ruske izdelke. Trenutno imajo v podjetju težave z dobavo rezervnih odlitkov; zaustavitve proizvodnje zaradi dobave rezervnih delov si ne morejo privoščiti. V diplomskem delu se bomo ukvarjali z razvojem ohišja za napredovalni stroj GPK-PV. Pri tem bomo uporabili različne metode dela. Za analiziranje začetnega stanja smo uporabili metodo analize. Ko smo končali z analiziranjem obstoječega stanja, smo se lotili modeliranja, (metoda modeliranja). Na osnovi funkcionalne analize komponent in celotnega sestava bo določeno, katere komponente niso potrebne za zagotavljanje končne funkcionalnosti stroja. Le-te bodo odstranjene. Rezultat diplomskega dela je funkcionalno zmodelirano ohišje napredovalnega stroja, ki ga podjetje, če bo to potrebovalo, lahko da v izdelavo. V diplomskem delu smo tako naredili 3D model, izdelali preračune zvarov, naredili tehniško dokumentacijo in ekonomsko primerjavo in tehnično med starim ter novim izdelkom.
Ključne besede: premogovništvo, napredovalni stroj, modeliranje, GPK-PV, reduktor, rekonstrukcija
Objavljeno v DKUM: 11.04.2025; Ogledov: 0; Prenosov: 9
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3. Process simulate versus inertial Mocap system in human movement evaluationD. Lanzoni, Gregor Harih, Borut Buchmeister, Nataša Vujica-Herzog, 2024, izvirni znanstveni članek Opis: There are various tools for evaluating physical ergonomics. Two main computer-assisted approaches can be recognized in the literature: analytical evaluation using simulation software like Siemens Jack or Process Simulate, and empirical evaluation by tracking human body movement. Both methods have their own advantages and disadvantages. This article compares an analytical method using Process Simulate software and an empirical evaluation using an inertial motion tracking system and highlights the strengths and limitations of both approaches. The information from the tracking system is processed by the Process Simulate software and an ad-hoc ergonomic analysis module developed in Unity. Given the limited license of Process Simulate, the ergonomic comparison is performed using two indices, RULA and OWAS. Other comparison metrics discussed in the article are the time required for the analysis, the additional functionality each solution offers and the possibility of augmenting the assessment with virtual or augmented reality solutions. The results show some limitations of using Process Simulate with the tracking data and the great versatility of the solution developed in Unity
Ključne besede: ergonomics, simulation, analytical evaluation, empirical evaluation
Objavljeno v DKUM: 11.03.2025; Ogledov: 0; Prenosov: 6
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5. Načrtovanje 3d tiskane podkolenske proteze za izboljšan prenos obremenitev na ležišče : diplomsko deloMatic Kramberger, 2024, diplomsko delo Opis: Diplomska naloga se je osredotočala na načrtovanje 3D tiskane podkolenske proteze za izboljšan prenos obremenitev na ležišče. Raziskane in razvite so bile različne konstrukcijske rešitve za distalni del protetičnega ležišča, ki bi izboljšale trdnost 3D tiskanih protez. Cilj je bil porazdeliti obremenitve na več slojev 3D tiska z uporabo cenovno dostopnih tehnologij, kot je tehnologija ciljnega nalaganja slojev (ang. Fused Filament Fabrication, krajše FFF) in materiala poliaktične kisline (ang. polylactic acid, krajše PLA). Naloga je vključevala teoretične osnove protetike spodnjih okončin, 3D tiska v protetiki in numeričnih metod. Razvitih je bilo več konceptnih in variantnih rešitev, ki so nato bile predelane v konstrukcijske modele. Pet modelov je bilo nato analiziranih z numeričnimi metodami. Analize so pokazale, da je bil model z vstavljenimi karbonskimi palicami najbolj učinkovit pri zmanjševanju napetosti na kritičnih mestih ležišča. Rezultati so pokazali, da je mogoče z uporabo tehnologije FFF doseči pomembne izboljšave pri izdelavi podkolenskih protez, vendar so potrebne nadaljnje raziskave in eksperimentalni testi za optimizacijo in praktično uporabo teh rešitev.
Ključne besede: podkolenska proteza, 3D tiskano ležišče, metoda končnih elementov, prenos obremenitev
Objavljeno v DKUM: 01.10.2024; Ogledov: 0; Prenosov: 46
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6. Konstruiranje in razvoj usmernika zraka hladilnikaŽiga Zupanc, 2024, diplomsko delo Opis: V diplomskem delu sem se posvetil razvoju in konstrukciji komponente usmernika zraka hladilnika v hladilno-zamrzovalnem aparatu. Glavni cilj je bil razvoj nove, delujoče komponente, ki se bo uporabljala v novi generaciji hladilnikov. V diplomskem delu je zajeta predstavitev projekta nove generacije, uporabljena programska orodja, analiza usmernika zraka z razlago delovanja aparata in zahtevami s strani podejtja, kostrukcija novega sklopa usmernika zraka s predvidenimi materiali, izboljšava konstrukcije s pomočjo simulacij in laboratorijskih meritev, končno testiranje prototipa ter process naročevanja orodja s pripravo tehnične dokumentacije.
Ključne besede: hladilno-zamrzovalni aparat, hladilnik, usmernik zraka, razvoj, konstruiranje
Objavljeno v DKUM: 20.09.2024; Ogledov: 0; Prenosov: 14
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7. Preračun pogona naprave za transport odrezkov in nadgradnja z namenom zagotavljanja varnosti : diplomsko deloŽan Kaizer, 2024, diplomsko delo Opis: V diplomskem delu je predstavljen že zmodelirani transportni voz za namen odstranjevanja odrezkov, ki mu je bilo potrebno narediti trdnostno analizo, določiti primerni elektro pogon in zagotoviti večjo varnost zaposlenih v podjetju. V diplomskem delu so najprej predstavljeni transportni vozi: opis transportnih naprav, sestavni deli, uporaba transportnih vozov ter prednosti in slabosti upravljanja z njimi. Sledi trdnostna analiza za ugotavljanje napetosti in povesov transportnega voza v programu PTC Creo. Izdelan je preračun pogona, z namenom izbire primernega elektromotorja in reduktorja. Nato je predstavljena zagotovitev varnosti z vsemi predpisi, ki jih je treba upoštevati, in nevarnostmi, ki se nam lahko pripetijo. Sledi nadgradnja transportnega voza s talnimi označbami in nalepljenimi opozorilnimi trakovi ter svetlobni stolp, ki nam pove, ali je voz pregret in z brenčalom daje zvoke opozarjanja, da je voz v obratovanju. Na koncu pa so v zaključku predstavljeni rezultati našega diplomskega dela.
Ključne besede: preračun, transport, varnost, pogon
Objavljeno v DKUM: 20.09.2024; Ogledov: 0; Prenosov: 16
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8. Bioinspired design of 3D-printed cellular metamaterial prosthetic liners for enhanced comfort and stabilityVasja Plesec, Gregor Harih, 2024, izvirni znanstveni članek Opis: Traditional prosthetic liners are often limited in customization due to constraints in manufacturing processes and materials. Typically made from non-compressible elastomers, these liners
can cause discomfort through uneven contact pressures and inadequate adaptation to the complex
shape of the residual limb. This study explores the development of bioinspired cellular metamaterial
prosthetic liners, designed using additive manufacturing techniques to improve comfort by reducing
contact pressure and redistributing deformation at the limb–prosthesis interface. The gyroid unit
cell was selected due to its favorable isotropic properties, ease of manufacturing, and ability to
distribute loads efficiently. Following the initial unit cell identification analysis, the results from the
uniaxial compression test on the metamaterial cellular samples were used to develop a multilinear
material model, approximating the response of the metamaterial structure. Finite Element Analysis
(FEA) using a previously developed generic limb–liner–socket model was employed to simulate
and compare the biomechanical behavior of these novel liners against conventional silicone liners,
focusing on key parameters such as peak contact pressure and liner deformation during donning,
heel strike, and the push-off phase of the gait cycle. The results showed that while silicone liners
provide good overall contact pressure reduction, cellular liners offer superior customization and
performance optimization. The soft cellular liner significantly reduced peak contact pressure during
donning compared to silicone liners but exhibited higher deformation, making it more suitable for
sedentary individuals. In contrast, medium and hard cellular liners outperformed silicone liners for
active individuals by reducing both contact pressure and deformation during dynamic gait phases,
thereby enhancing stability. Specifically, a medium-density liner (10% infill) balanced contact pressure
reduction with low deformation, offering a balance of comfort and stability. The hard cellular liner,
ideal for high-impact activities, provided superior shape retention and support with lower liner
deformation and comparable contact pressures to silicone liners. The results show that customizable
stiffness in cellular metamaterial liners enables personalized design to address individual needs,
whether focusing on comfort, stability, or both. These findings suggest that 3D-printed metamaterial
liners could be a promising alternative to traditional prosthetic materials, warranting further research
and clinical validation
Ključne besede: bioinspired design, metamaterial model, cellular structure, additive manufacturing, lower-limb prosthetic, 3D printing, finite element method
Objavljeno v DKUM: 19.09.2024; Ogledov: 0; Prenosov: 315
Celotno besedilo (8,88 MB)
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9. Thermo-mechanical behavior and strain rate sensitivity of 3D-printed polylactic acid (PLA) below glass transition temperature (Tg)Vukašin Slavković, Blaž Hanželič, Vasja Plesec, Strahinja Milenković, Gregor Harih, 2024, izvirni znanstveni članek Opis: This study investigated the thermomechanical behavior of 4D-printed polylactic acid (PLA), focusing on its response to varying temperatures and strain rates in a wide range below the glass transition temperature (Tg). The material was characterized using tension, compression, and dynamic mechanical thermal analysis (DMTA), confirming PLA’s strong dependency on strain rate and temperature. The glass transition temperature of 4D-printed PLA was determined to be 65 °C using a thermal analysis (DMTA). The elastic modulus changed from 1045.7 MPa in the glassy phase to 1.2 MPa in the rubber phase, showing the great shape memory potential of 4D-printed PLA. The filament tension tests revealed that the material’s yield stress strongly depended on the strain rate at room temperature, with values ranging from 56 MPa to 43 MPA as the strain rate decreased. Using a commercial FDM Ultimaker printer, cylindrical compression samples were 3D-printed and then characterized under thermo-mechanical conditions. Thermo-mechanical compression tests were conducted at strain rates ranging from 0.0001 s−1 to 0.1 s−1 and at temperatures below the glass transition temperature (Tg) at 25, 37, and 50 °C. The conducted experimental tests showed that the material had distinct yield stress, strain softening, and strain hardening at very large deformations. Clear strain rate dependence was observed, particularly at quasi-static rates, with the temperature and strain rate significantly influencing PLA’s mechanical properties, including yield stress. Yield stress values varied from 110 MPa at room temperature with a strain rate of 0.1 s−1 to 42 MPa at 50 °C with a strain rate of 0.0001 s−1. This study also included thermo-mechanical adiabatic tests, which revealed that higher strain rates of 0.01 s−1 and 0.1 s−1 led to self-heating due to non-dissipated generated heat. This internal heating caused additional softening at higher strain rates and lower stress values. Thermal imaging revealed temperature increases of 15 °C and 18 °C for strain rates of 0.01 s−1 and 0.1 s−1, respectively.
Ključne besede: smart materials, shape memory polymer, 3D printing, 4D printing, thermo-mechanical experiments
Objavljeno v DKUM: 29.05.2024; Ogledov: 248; Prenosov: 30
Celotno besedilo (5,88 MB)
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