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4 min read

Can you really trust a $200,000 DMLS Metal 3D printer?

By Kevin Carr on May 8, 2025 10:45:19 AM

That question came from Shane Jetton during a conversation—and it stuck with me.  In an industry full of big promises and even bigger price tags, it's a fair question to ask.  At M5D (formerly MasterGraphics), we've been deeply involved in metal additive manufacturing for years.  And like many others in this space, we've made some expensive mistakes—investing in systems that didn't live up to the hype.  So when One Click Metal approached us about becoming a reseller,  our initial reaction was skepticism.  Affordable DMLS printing with industrial-grade output? It sounded like another lofty promise. But after doing the research—speaking with other resellers, end users, and evaluating their product line—we decided to move forward.

One Year In:  One of Our Best Decisions in Additive Manufacturing

Now, nearly a year later, we've installed over 10 One Click Metal systems across a range of customers—from small shops to enterprises.  And we're confident in saying this was one of the two best AM decisions we've made in the last decade (the other being HP in 2017).

Here's why:

1. Simplified & Safer Powder Handling

One Click's cartridge-based powder management system drastically reduces direct interaction with metal powders, improving both safety and cleanliness on the shop floor.  The integrated MPURE station automates depowdering and sieving, making unused powder easy to recycle and reuse—a crucial feature for cost control and sustainability.

Pulverkreislauf_Grafik_19202.  Industrial-Grade Hardware in an Accessible Package

Despite its compact size and lower price point, the MPRINT+ system is packed with serious performance:

  • 200W Fiber Laser
  • Galvo Scanner with scan speeds up to 3000 mm/s
  • Focus diameter of 45 microns
  • Build Volume of 150 x 150 x 150 mm

This makes the system ideal for both prototyping and low-volume production.

MPRINT_open_02-23. Cost-Effective and Scalable

Lead with price?! I always believe that any solution needs to start wit the "pain" first to see if there is even a solution.  The clear ground breaking part of the system is a total system price around $200,000, One Click offers a far more accessible entry point into metal AM compared to traditional DMLS systems, which often exceed $800k.

Want to break it down even further?  You're looking at about $5K/month, including equipment and maintenance.   That's a very manageable entry point—and a strong starting ROI for SMBs, service bureaus, or educational institutions.  

4. Modular Design for Future-Proofing

The BOLDSERIES platform includes:

  • MPRINT+ Printer
    • Ask me about the lab print module - an innovative way to run different materials!
  • MPURE Processing Station
  • MONE 3D Print Software

This modular ecosystem makes upgrades and servicing far more manageable, ensuring that customers can scale their system as their needs evolve.

ocm system5. Remote Monitoring & Control

Through the MONE software, users can remotely control and monitor print jobs from anywhere—ideal for busy teams or distributed production environments.

mone1

Real-World Performance: Side-by-Side with the Big Guys

We've installed One Click systems alongside legacy DMLS systems that cost nearly four times as much—and the results are comparable.  That's not just a selling point, that's proof.  While no system is perfect—and One Click continues to improve, especially in their OS—we're confident in the solutions.  So confident, in fact, that we've personally guaranteed success to our customers.  

big guys - ocm

Final Thoughts

If you've been skeptical of metal AM systems, you're not alone.  If you've been burned in the past, we've been there too.  But the One Click Metal system is the real deal:  safe, scalable, and affordable—without sacrificing performance.  So, can you trust a $200K DMLS system?

Yes—you can!

And we believe it's changing the landscape of metal 3D printing.

If you'd like to see it in action, learn more, or talk to other customers, we'd be happy to connect you with the right people—even if you're outside our region.

M5D One Click Metal webpage

Thanks for reading!

Kevin Carr
President | M5D
kcarr@m5d.com

 

Topics: 3D Printing Metal Metal 3D Printing 3D Materials
4 min read

As the World of 3D printing expands...so do industrial plastic materials and print speeds.

By Barbara Miller-Webb on Jul 20, 2022 1:58:51 PM

A common question I hear from my customers is, "What 3D materials are tough and which materials are best suited for certain applications?"  The second question I typically hear is, "What is the print speed?"  While not many new AM technologies are being developed, the same is not true with materials.  With innovations in 3D printing and materials development, entirely new business models are being unlocked.  3D printing is developing fast.  With ever-evolving technologies and materials, the range of addressable applications across industries has never been so varied or offered such huge opportunities.  No material can do everything.

The 3D Systems' Figure 4 DLP technology has been especially transformative.  Innovative new materials open up new production workflows for digital manufacturing.  Plastic printing materials are particularly versatile.  Listed below are industrial materials and applications applicable to the Figure 4 DLP technology.  These materials are a new class of additive materials with industry-leading UV stability.

Figure 4® Rigid 140C Black, Figure 4® Rigid White, Figure 4® Rigid Gray, Figure 4® Tough 60C White, Figure 4® Tough 65C Black, Figure 4® PRO-BLK 10: True production-class material; versatile rigid urethane-like material with an industry-leading combination of speed, accuracy and engineering-grade properties of strength, impact, and heat resistance.
GOOD FOR:  • Rapid prototyping • Functional assemblies • Snap-fit components • Consumer electronic components • Drill/tap applications • Master patterns for vacuum casting

Figure 4® 150C FR Black
GOOD FOR: • Aircraft interior parts • Consumer goods and electronics • Components requiring flame retardancy

Figure 4® FLEX-BLK 20 and Figure 4® FLEX-BLK 10: Extremely durable polypropylene-like parts Highest precision prototyping material with UV stability for production applications where mechanical properties fit.
GOOD FOR: • Prototyping • Functional testing • Low-volume production • Master patterns for RTV/silicone molding • Snap-fit assemblies

Figure 4® HI TEMP 300-AMB: High-temperature resistance for use in the harshest environments.
GOOD FOR: • HVAC, consumer appliances, motor enclosures, and other test or end-use components requiring high heat resistance • Low-pressure molding/tooling • Overmolding

Figure 4® RUBBER-BLK 10 and Figure 4® Rubber 65A BLK: High tear strength, malleable material for hard, rubber-like parts.
GOOD FOR: • Functional prototypes with rubber-like properties - Gaskets - Hoses - Seals • Low to mid-volume direct manufacturing of end-use parts • Strain-relief applications

Figure 4® MED-AMB 10 and Figure 4® MED-WHT 10: Materials with biocompatibility and autoclave stability for medical and industrial.
GOOD FOR: • Medical applications, including - Surgical drill guides - Splints - Anatomical or bone models • High-temperature applications

Figure 4® EGGSHELL-AMB 10: A rigid plastic for casting silicones to withstand injection at high temperature and pressure, but easy to break away. 
GOOD FOR: • Silicone castings • Customized end-use silicone parts • Low-volume production of silicone parts

With a better understanding of industrial materials discussed for the 3D Systems' Figure 4 DLP technology, I want to discuss the advancements in print speed.  Figure 4 offers ultra-high print speeds with 3 print modes, enabling up to 100mm/hour printing, some of the faster on the 3D printer market today.  The following is a good example from a service bureau printing aerospace check fixtures.  aerospace parts

  • CHALLENGE: Deliver production-grade check fixtures for aerospace customer with a very fast turnaround.
  • SOLUTION: Figure 4 with 3D Sprint software and Figure 4 TOUGH-GRY 15 material.
  • RESULTS
    • 24 parts printed per tray
    • Print set up time - 7 minutes
    • Time to part in-hand - 91 minutes
    • Print time - 31 minutes
    • Post-processing - 60 minutes

To round out the key advancements of the 3D Systems' Figure 4, alongside the materials science and production-grade end-use parts at accelerated speeds, the new high-density part stacking feature of 3D Systems' 3D Sprint software allows efficient part nesting and optimized support generation to enable new efficiency in batch printing and post-processing.  Advantages of High-Density Vertical Stacked Printing over traditional methods 3D printing often leads to fast turnaround times without using expensive tooling.  Additive Manufacturing, AM serves as a great tool for prototyping and low/mid-sized production by using high-density vertical stacked printing.  Key drivers for stacked printing include:

  • Productivity and Efficiency: by utilizing the full build height (350 mm) and stacking parts, more parts can be printed.  With 3D Systems' additive manufacturing workflow software, 3D Sprint, stacks can be easily generated and supported to maximize packing density, reduce post-processing, and decrease labor times.
  • Strut Array Generation:  Quickly generate and replicate strut supports throughout a stack within 3D Sprint.  The open, sparse strut network maximizes solvent washing, air drying, and post-cure process effectiveness for batch manufacturing.
  • Overnight Printing and Cadence: For manufacturers that do not work around the clock, there is a lot of wasted time at night that could be used for printing parts.  Prints can be planned more efficiently to improve throughput in a single day by printing less frequently, but with a larger yield.  If build times are too short, technicians would get overwhelmed from replacing builds for many printers.
  • Automation Compatible: Another method for improving the efficiency of the entire workflow is by using automation.  With pinpoint contact strut supports allowing for quick removal of supports, automation can be used to clean, dry, and cure stacks of parts without human labor.  Multiple wash stations can be used for cleaning parts.

If you want to know more about the advancements of vertical stacking with the 3D Systems solutions please click the following: 3D Systems Application Brief - Industrial Stacking

If you want more information in general, feel free to visit us at www.mastergraphics.com or contact me directly at barb.miller-webb@mastergraphics.com

Topics: 3D Printing Medical 3D Systems Figure 4 DLP aerospace 3D Materials