Liċenzji Open-Source

Dan is-servizz jiddependi fuq il-proġetti open-source li ġejjin. Aħna grati lejn l-awturi u l-komunitajiet tagħhom.

OrcaSlicer

OrcaSlicer huwa ġeneratur ta' G-code għal stampaturi 3D, użat minn dan is-servizz biex jaqta' mudelli ttellgħu u jikkalkula l-parametri tal-istampar.

• Liċenzja: GNU Affero General Public License v3 (AGPL-3.0)
• Sors: github.com/SoftFever/OrcaSlicer

Gmsh

Gmsh huwa ġeneratur ta' mesh b'elementi finiti użat biex jikkonverti fajls CAD STEP/STP f'meshes STL għall-istampar 3D.

• Liċenzja: GNU General Public License v2+ (GPL-2.0-or-later)
• Sors: gmsh.info
• Ċitazzjoni: C. Geuzaine and J.-F. Remacle, “Gmsh: a three-dimensional finite element mesh generator with built-in pre- and post-processing facilities”, International Journal for Numerical Methods in Engineering, 79(11), pp. 1309–1331, 2009.

Three.js

Three.js hija librerija 3D ta' JavaScript użata biex tirrendixxja l-previżjoni interattiva tal-mudell fil-browser tiegħek.

• Liċenzja: MIT License
• Sors: threejs.org

PrusaSlicer

PrusaSlicer is a G-code and SL1 generator for 3D printers, used by this service to slice resin (mSLA) models and extract layer data for quoting.

• Liċenzja: GNU Affero General Public License v3 (AGPL-3.0)
• Sors: github.com/prusa3d/PrusaSlicer

UVtools

UVtools is a tool for MSLA/DLP resin print file analysis, used by this service to validate sliced SL1 output and extract volume data.

• Liċenzja: MIT License
• Sors: github.com/sn4k3/UVtools

Trimesh

Trimesh is a Python library for loading and processing triangular meshes, used by this service for geometric risk assessment and mesh analysis.

• Liċenzja: MIT License
• Sors: trimesh.org

Next.js

Next.js is a React framework for server-rendered web applications, used to build the front-end of this service.

• Liċenzja: MIT License
• Sors: nextjs.org

React

React is a JavaScript library for building user interfaces, used as the core UI framework for this service.

• Liċenzja: MIT License
• Sors: react.dev

Fastify

Fastify is a high-performance Node.js web framework, used to power the mSLA slicing API.

• Liċenzja: MIT License
• Sors: fastify.dev

Flask

Flask is a lightweight Python web framework, used to power the FDM slicing and risk assessment APIs.

• Liċenzja: BSD 3-Clause License
• Sors: flask.palletsprojects.com

NumPy

NumPy is a Python library for numerical computing, used for mesh geometry calculations in the slicing and risk assessment engines.

• Liċenzja: BSD 3-Clause License
• Sors: numpy.org

SciPy

SciPy is a Python library for scientific and technical computing, used for spatial analysis in the risk assessment engine.

• Liċenzja: BSD 3-Clause License
• Sors: scipy.org

Caddy

Caddy is a web server with automatic HTTPS, used as the reverse proxy and TLS termination layer for this service.

• Liċenzja: Apache License 2.0
• Sors: caddyserver.com

ClamAV

ClamAV is an open-source antivirus engine, used to scan uploaded files for malware before processing.

• Liċenzja: GNU General Public License v2 (GPL-2.0)
• Sors: clamav.net

Grafana Loki

Grafana Loki is a log aggregation system (with Promtail as the log shipper), used for centralised logging and diagnostics.

• Liċenzja: GNU Affero General Public License v3 (AGPL-3.0)
• Sors: grafana.com/oss/loki

L-għodod kollha msemmija hawn fuq jiġu invokati bħala proċessi standalone jew libreriji min-naħa tal-klijent u mhumiex modifikati. Il-kodiċi sors rispettiv tagħhom huwa disponibbli fil-links hawn fuq.

Bibljografija tar-Riċerka

L-algoritmi awtomatizzati tagħna ta' evalwazzjoni tar-riskju huma informati mir-riċerka peer-reviewed li ġejja. Nirrikonoxxu b'gratitudni l-awturi li x-xogħol tagħhom isostni l-magni ta' analiżi ġeometrika tagħna.

Evalwazzjoni tar-Riskju SLS

Depowderabbiltà, detezzjoni ta' ħitan irqaq, predizzjoni ta' warpage, u skorjar tal-kumplessità tal-iskan għal Selective Laser Sintering.

1. Josupeit, S., Ordia, L., & Schmid, H.-J. (2016). “Modelling of Temperatures and Heat Flow within Laser Sintered Part Cakes.” Additive Manufacturing. doi:10.1016/j.addma.2016.06.002

   Użat għal: warpage risk prediction — position-dependent thermal gradients and height-based cooling risk

2. Li, J., Yuan, S., Zhu, J., Li, S., & Zhang, W. (2020). “Numerical Model and Experimental Validation for Laser Sinterable Semi-Crystalline Polymer: Shrinkage and Warping.” Polymers, 12, 1373. doi:10.3390/polym12061373

   Użat għal: warpage risk prediction — cross-section analysis for PA12 shrinkage and crystallization-induced strain

3. Häfele, T., Schneberger, J.-H., Buchholz, S., Vielhaber, M., & Griebsch, J. (2025). “Evaluation of Productivity in Laser Sintering by Measure and Assessment of Geometrical Complexity.” Rapid Prototyping Journal. doi:10.1108/RPJ-07-2024-0289

   Użat għal: scan complexity scoring — SA/V ratio and topological genus as proxy for contour/hatch complexity

4. Tedia, S., & Williams, C. B. (2016). “Manufacturability Analysis Tool for Additive Manufacturing Using Voxel-Based Geometric Modeling.” Proceedings of the 27th Annual International Solid Freeform Fabrication Symposium, Austin, TX. (no DOI assigned — SFF Symposium proceedings paper)

   Użat għal: depowderability analysis — trapped powder detection via voxel void connectivity

Evalwazzjoni tal-Kumplessità mSLA (AMCI)

Additive Manufacturing Complexity Index adattat għall-istampar bir-reżina masked stereolithography.

1. Matoc, D. A., Maheta, N., Kanabar, B. K., & Sata, A. (2025). “Quantifying Manufacturability Complexity Index: A Case Study of VAT Photopolymerization Additive Manufacturing.” 3D Printing and Additive Manufacturing, 12(6), 670–685. doi:10.1089/3dp.2024.0059

   Użat għal: AMCI complexity scoring — geometry, feature, and manufacturability sub-indices (0–100 scale)

Evalwazzjoni tar-Riskju FDM

Detezzjoni ta' overhangs, analiżi ta' adeżjoni mal-bażi, predizzjoni ta' warping, u skorjar tal-fraġilità għal Fused Deposition Modeling.

1. Budinoff, H. D., & McMains, S. (2021). “Will It Print: a Manufacturability Toolbox for 3D Printing.” International Journal on Interactive Design and Manufacturing (IJIDeM), 15, 613–630. doi:10.1007/s12008-021-00786-w

   Użat għal: overhang and warping methodology — face-normal dot product with build direction, cross-section area analysis

2. Henn, J., Hauptmannl, A., & Gardi, H. A. A. (2025). “Evaluating the Printability of STL Files with ML.” arXiv preprint. doi:10.48550/arXiv.2509.12392

   Użat għal: FDM risk scoring — ML-based printability evaluation of STL geometry (overhangs, thin walls, bridging, warping)

Manifatturabbiltà Ġenerali AM

Surveys cross-technology u meta-reviews dwar analiżi awtomatizzata tal-istampabbiltà.

1. Parry, L. (software). “PySLM (Python Library for SLM/DMLS/SLS Toolpath Generation).” (no DOI assigned — cite as software/repository)

   • Sors: github.com/drlukeparry/pyslm

2. Adam, G. A. O., & Zimmer, D. (2015). “On Design for Additive Manufacturing: Evaluating Geometrical Limitations.” Rapid Prototyping Journal, 21(6), 662–670. doi:10.1108/RPJ-06-2013-0060

   Użat għal: design rule thresholds — minimum wall thickness, hole diameter, and overhang angle limits per technology