Integra3D offers professional 3D design, CAD drawing, reverse engineering (including digitizing paper drawings), prototyping, and 3D printing (FDM and SLA).
Frequently Asked Questions
Yes. If you don’t have a ready-to-print file, our design team can create a 3D model from your sketches, technical drawings, or physical samples. We’ll prepare it for printing and make sure it meets all technical requirements.
Yes, we offer the service of converting old paper manufacturing drawings into modern, precise, and editable CAD files ready for contemporary manufacturing.
Yes, through reverse engineering, we create an accurate digital CAD model from a physical object, which can then be modified, analyzed, or reproduced.
Yes. We can adapt materials, print technology, resolution, and finishing processes to your specific requirements. Whether you need functional strength or visual detail, we’ll tailor the project to you.
Yes. All uploaded files are treated as strictly confidential. We can also sign an NDA (Non-Disclosure Agreement) before receiving your files to ensure full protection of your intellectual property.
Price depends on material, quantity, complexity, and any post-processing requirements. Ordering in batches, optimizing the model, and consolidating parts can significantly reduce cost.
Our selection is extensive, ranging from standard filaments to high-performance engineering plastics. We offer the following materials:
- Standard Plastics: PLA, PETG HF, ABS, ASA.
- Flexible Materials: TPU (85A, 90A, 95A HF).
- Reinforced Composites: PLA-CF, PETG-CF, ABS-GF, ASA-CF, PA6-CF (Carbon Fiber Reinforced Nylon), PA6-GF, PAHT-CF, PET-CF, PPA-CF.
- Specialty Materials: PC (Polycarbonate), PC FR (Flame Retardant), PVA (Soluble Support), PLA Glow (Glow-in-the-dark).
- SLA Technology: Various high-precision resins for detailed surface finishes.
Briefly explained – Infill is the amount of material used in between the outer walls of a part. It only applies to FDM prints, where a pattern (like honeycomb) is used to provide strength without wasting material.
While SLA is the oldest of all 3D printing technologies, it remains the gold standard for overall accuracy, surface finish, and resolution. It uses an ultraviolet laser focused on a liquid thermoset resin, turning it solid layer by layer. Surface finish and detail are unmatched.
FDM is one of the most affordable 3D printing technologies. It works by melting a thermoplastic filament and extruding it layer by layer onto a print bed. It is ideal for durable, functional parts. Since the part is printed layer by layer, the surface is usually not perfectly smooth.
Simple printing jobs are usually completed within 2–3 business days. For complex design and reverse engineering projects, we agree on a timeline based on the project scope.