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VRAGEN EN ANTWOORDEN

Do you offer a catalogue? Price?

We don’t have a standard catalogue because our service is 100% custom-made to your designs!
Since we work under strict NDAs, we can’t show client parts. Please share your 3D file (STEP/STL), and we will provide a unique quote based on your specific geometry.

What are your tolerances/size limits?

Precision: ±0.2-0.3mm per 100mm.
Min Wall Thickness: 0.7mm (thinner may deform).
Max Build: 600×580×580mm.
*Note: Larger parts can be split and assembled, but this may affect surface finish and strength. We review this case-by-case!

How do I get a quote?

It’s easy!
Send your 3D file to service@primofort.com
Or WhatsApp us: +86 133 6067 4683
Need an NDA? Let us know, and we’ll sign yours or send ours.

Where are your 3D printing farms located?

Most are in Dongguan, China. Dongguan sits between Shenzhen and Guangzhou, and we welcome you to visit for an on-site tour.

How Does 3D Printing Work?

3D printing works by creating physical objects from a digital design, adding material layer by layer rather than cutting it away (subtractive manufacturing). However, the “how” varies significantly by technology:

  • FDM (Fused Deposition Modeling):The most common method. A printer pushes a thermoplastic filament through a heated nozzle, melting it and laying it down on a build platform. The layers fuse together as they cool.
  • SLA (Stereolithography):This uses a vat of liquid photopolymer resin. A UV laser traces the design on the surface of the liquid, curing (hardening) the plastic. It is known for extremely high detail and smooth surface finishes.
  • SLS (Selective Laser Sintering):Ideally suited for functional parts. A high-power laser sinters (fuses) small particles of polymer powder into a solid structure. Based on your “Nylon Printing Process” document, SLS is particularly powerful because it requires no support structures—the unsintered powder supports the part, allowing for complex, interlocking geometries and robust mechanical properties.
  • MJF (Multi Jet Fusion):Similar to SLS but uses an inkjet array to apply fusing and detailing agents across a bed of nylon powder, which is then fused by heating elements. It produces high-density, isotropic parts ideal for industrial runs.
  • SLM (Selective Laser Melting):Used for metals. A high-power laser fully melts metal powder (like titanium or steel) to create solid, dense metal parts, commonly used in aerospace and medical implants.
When Was 3D Printing Invented and By Whom?

The concept of 3D printing originated in the early 1980s. Chuck Hull is widely credited as the “father of 3D printing.” He invented Stereolithography (SLA) and patented the technology in 1984. Hull subsequently co-founded 3D Systems to commercialize the technology. Around the same time, Scott Crump invented FDM (patented in 1989), and Carl Deckard developed SLS at the University of Texas.

What Can You Do With a 3D Printer?

3D printing has moved far beyond simple trinkets.

  • Practical/Consumer Uses:Repairing household items, creating custom organizers, printing hobby miniatures, and cosplay props.
  • Industrial Uses: A.Prototyping.Rapidly iterating designs to test fit and function before mass production. B.Tooling and Jigs.Creating custom manufacturing aids on the fly. C.End-Use Parts. Technologies like SLS using Nylon materials are now durable enough for final production parts. These parts resist wear, heat, and chemicals, solving problems related to supply chain shortages and the high cost of injection molding molds for small-batch runs.
What Materials Do 3D Printers Use?

Materials depend entirely on the technology employed:

  • FDM Materials:Uses spools of thermoplastic filament. Common types include PLA (biodegradable, easy to print), PETG (durable, water-resistant), and ABS (impact-resistant).
  • SLA Materials:Uses liquid Photopolymer Resins. These can be formulated to be flexible, tough, heat-resistant, or even castable (for jewelry).
  • SLS & MJF Materials:Primarily uses Nylon (Polyamide) powders.
  • SLM Materials:Uses metal powders including Stainless Steel, Titanium, Aluminum, and Cobalt Chrome.
How to Create 3D Models for Printing?

To print something, you first need a 3D model. You can create these using CAD (Computer-Aided Design) software.

  • Beginners: Tinkercad.
  • Artistic/Organic: Blender or ZBrush.
  • Engineering/Parametric: Fusion 360, SolidWorks, or Rhino.
  • For a comprehensive list of software suitable for 3D printing, please refer to the tutorial at: https://www.sculpteo.com/en/tutorial/

If you don’t want to design from scratch, you can download models (usually in .STL or .3MF format) from these repositories:

  • printables.com(Community-driven, high quality)
  • makerworld.com(Fast-growing, linked to Bambu Lab)
  • thingiverse.com(One of the oldest and largest libraries)
  • cults3d.com(Great for artistic and paid premium files)
  • myminifactory.com(Specializes in tabletop gaming and figures)
  • yeggi.com(A search engine that crawls all the sites above)

This is often done using a technique called Lithophanes. By mapping dark pixels to thicker layers and light pixels to thinner layers, you can print a photo that reveals the image when backlit. You can use free online tools (like “Image to Lithophane” converters) to generate the STL file automatically. Alternatively, you can create “relief maps” where the 3D geometry mimics the depth of the objects in the photo.

How Much Does A 3D Printer Cost?

The cost of industrial 3D printing varies significantly based on material volume, machine run time, and the specific technology used.

  • Entry Level: Hobbyist FDM printers (eg.BambuLab, Creality,  Anycubic) cost a few hundred dollars, and prints cost pennies in material.
  • Industrial Level: High-end equipment represents a significant capital investment. For pricing on specific industrial solutions such as the Formlabs Fuse (SLS), Farsoon FLIGHT 403 (High-speed SLS), Matrix CP600, or the Stratasys J55 (PolyJet), please go to the relevant official website to get the most current quotes and configuration pricing.

Infill is the internal structure of a 3D printed part. Instead of printing a solid block of plastic (which is slow and expensive), the printer creates a pattern inside (like a honeycomb, grid, or gyroid). You can adjust the infill density (0% to 100%) to balance part strength against weight and print time.

3D printing generates waste, such as support structures and failed prints.

  • PLA:Technically biodegradable but requires industrial composting facilities.
  • Resins:Toxic in liquid form; must be fully cured (hardened) before disposal.
  • Nylon Powder (SLS):Unused powder can often be recycled and mixed with fresh powder for the next print run (refresh rate), making it relatively efficient.
Careers in Additive Manufacturing: Jobs That Use 3D Printing

The industry is booming, offering diverse career paths:

  • 3D Design Engineer:creating the CAD files.
  • 3D Printing Technician:Operating and maintaining machines like the Farsoon or Stratasys series.
  • Materials Scientist:Developing new resins or powders.
  • Application Engineer:Helping companies figure out how to integrate 3D printing into their existing supply chains (e.g., switching from injection molding to Nylon SLS printing).