Is this $799 CoreXY printer the best value for high-temperature materials?
We put it to the test with ABS, Nylon, Polycarbonate, and Carbon Fiber.
At a Glance
- Price: $799
- Build Volume: 305 Ă— 305 Ă— 280 mm (12″ Ă— 12″ Ă— 11″)
- Technology: FDM, CoreXY, Fully Enclosed
- Hotend: 80W bimetal direct drive, up to 370°C
- Bed: 6mm aluminum, heated to 100°C
- Chamber: Active heating up to 65°C
- Interface: 5-inch touchscreen, Klipper/Fluidd
- Camera: 1080p built-in
- Connectivity: Wi-Fi, Ethernet, USB flash drive
- Weight: 27 kg (60 lbs)
- Speed: Up to 600 mm/s (recommended 200–300 mm/s)
Amazon Affiliate Link:
Buy the QIDI Plus4 on Amazon
Introduction: A Midrange Monster for Materials
In the $800 printer bracket, you usually expect either a speed-first machine (Creality K1 style) or a polished generalist (think Bambu A1 vibes).
The QIDI Plus4 doesn’t fit neatly into either lane. It’s a heated-chamber CoreXY built for engineering-grade materials,
offering capabilities that used to sit in the $3,000+ category not that long ago.
QIDI has been shipping enclosed FDM printers since 2014, building a reputation for plug-and-play reliability in classrooms and offices.
The Plus4 is their most ambitious consumer machine yet: active chamber heating, auto leveling, Klipper-based control, and a platform designed for high-temp and fiber-reinforced filaments.
If you’re shopping specifically for ABS, ASA, Nylon, Polycarbonate, or CF composites, the Plus4 should be on your shortlist.
Check the Amazon listing here →
After weeks of testing with PLA, PETG, ABS, ABS-CF, PA6-CF, and polycarbonate, this printer earns real respect… with quirks. And there’s one major safety note you should understand before buying.
QIDI’s Evolution: From Education to Engineering
QIDI entered the consumer 3D printing market in 2014 with enclosed machines focused on reliability and safety. As the market shifted toward speed and automation,
QIDI responded with newer CoreXY offerings and has increasingly leaned into one differentiator: material versatility.
While other brands emphasize speed, color ecosystems, or entry-level affordability, QIDI’s pitch is clear: print the strong stuff.
If your parts need heat resistance, toughness, and durability, the Plus4 is designed for that job.
Unboxing and First Impressions: Heavy Duty in Every Sense
At 27 kg (60 lbs), this is not a casual “move it with one hand” printer. QIDI includes top handles, but two people is the safe play.
The machine feels industrial: solid construction, minimal flex, and components that look chosen for stability, not aesthetics.
Build highlights
- Frame: Steel internal frame with faux-metal plastic side panels
- Z-axis: Dual independent motors, hardened lead screws, linear rails
- Build plate: 6mm aluminum with double-sided PEI sheet
- Chamber: Fully enclosed with glass door/lid + internal LED lighting
- Extruder/hotend: All-metal direct drive + hardened nozzle + 80W heater
A genuinely nice touch: the display walks you through an unboxing checklist so you don’t miss shipping screws or hidden foam.
That prevents a lot of “why is my axis screaming” moments.
Design and Specifications: Built for Engineering
Build area and footprint
The 305 × 305 × 280 mm build volume matches “large format” expectations and gives you room for substantial parts or multi-part assemblies.
The footprint (about 505 × 487 × 550 mm) means you’ll want dedicated space.
CoreXY motion system
CoreXY couples X/Y motion for speed with reduced moving mass. With Klipper input shaping, wide belts, and a stiff frame, the Plus4 stays smooth even when pushing the pace.
Hotend and extruder
The 80W bimetal hotend (up to 370°C) is the headline for engineering filaments.
It’s built to handle everything from PLA and PETG to polycarbonate, nylon, and carbon-fiber reinforced materials.
Keep dedicated nozzles for abrasive composites and high-temp families to avoid cross-contamination.
Heated bed
The 6mm aluminum bed (up to 100°C) is thicker than most hobby machines and helps even heat across the full plate.
The double-sided PEI sheet works well for PLA/PETG/ABS/PC, with adhesives (Magigoo/glue stick) helping for nylon and certain CF blends.
Active chamber heating
This is the killer feature: active chamber heating to ~65°C. A warm, stable chamber reduces warping and layer separation and makes ABS/ASA/PC/Nylon dramatically easier.
Safety note (important): Early units reportedly shipped with an undersized SSR for the chamber heater. QIDI has acknowledged the issue and newer units are said to ship with upgraded parts.
If buying used, verify the SSR update before running long, high-temperature jobs.
Chamber filtration
An active carbon filter pouch helps reduce odors when printing ABS/PC/Nylon. It’s not a substitute for ventilation, but it’s a welcome “office friendly” nod.
Setup and Calibration: 10 Minutes to Printing?
Setup is quick if you’re comfortable with basic assembly: remove foam, remove shipping screws, attach the spool holder, handle, and display, then follow the guided startup.
The printer walks you through loading filament, bed leveling, input shaping calibration, and a test print.
Practical annoyance: swapping build plates can require re-running mesh leveling. Forgetting this is a fast lane to first-layer drama.
This is a firmware/workflow issue QIDI could improve.
Software and Firmware: Klipper with Training Wheels
The Plus4 runs a customized Klipper stack (with Fluidd/Moonraker-style control). You get modern tools like input shaping and pressure advance,
plus the ability to use local control without cloud dependency if you prefer.
QIDI Studio slicer
QIDI Studio provides tuned profiles and a familiar workflow if you’ve used Bambu/Prusa-style slicers.
You can also run OrcaSlicer, Cura, or PrusaSlicer with a compatible profile and temperature tuning.
Connectivity and monitoring
- Wi-Fi: 2.4 GHz
- Ethernet: recommended for long, stable runs
- USB: reliable offline file transfer
- Camera: 1080p with chamber lighting for monitoring and timelapses
Print Quality: Engineering Filaments Excel
The Plus4 is pleasant with PLA and PETG, but it truly shines once you move into ABS, PC, nylon, and CF composites. See also: Best Budget 3D Printer Upgrades That Actually Impr…. The heated chamber and high-temp hotend remove the usual pain points: warping, delamination, and inconsistent bonding.
Highlights by material
- PLA: clean, crisp, and easy (often better with the lid off for cooling)
- PETG: consistent with good tuning
- ABS: where the heated chamber pays off: stable, warp-resistant prints
- Polycarbonate: strong functional parts with reduced cracking risk
- Nylon / PA-CF: demanding material made achievable with drying + chamber heat
- TPU: direct drive handles flexible filaments well (slower for soft TPU)
- CF composites: hardened nozzle helps resist abrasion (use dedicated nozzles)
Speed and Acceleration: Fast Without Compromise
While marketing peaks at 600 mm/s, the realistic “sweet spot” depends on material. PLA/PETG can run faster, while ABS/PC/Nylon typically prefers 200–300 mm/s for consistent melting and bonding.
The key is that quality remains unusually stable thanks to a stiff motion system and controlled chamber environment.
The Good, The Bad, and The Safety Concern
âś… What I Love
- Exceptional material versatility for engineering filaments
- Active chamber heating makes ABS/PC/Nylon far easier
- Industrial-feeling construction (thick bed, stiff frame)
- Open Klipper ecosystem with local control options
- Camera + lighting for monitoring
- High-flow hotend with high max temperature
- Automatic calibration helps reduce tuning burden
- Future upgrade path for multi-color accessories
❌ What Could Be Better
- SSR concern on early units (verify upgraded relay if used)
- Bulky/heavy for many workspaces
- UI polish could be better at this price
- Plate changes may require re-meshing
- Service network can be more limited than mass brands
Compared to the Competition
| Printer | Price | Build Volume | Chamber | Max Nozzle | Best For |
|---|---|---|---|---|---|
| QIDI Plus4 | $799 | 305³ | Heated (65°C) | 370°C | Engineering materials |
| Bambu Lab P1S | $799 | 256³ | Heated (~60°C) | 300°C | Speed & color ecosystem |
| Creality K1 Max | $799 | 300³ | Heated (~45°C) | 300°C | Large fast prints |
| Prusa Core One | $1,399 | 250³ | Heated (~55°C) | 300°C | All-around reliability |
| Anycubic Kobra 2 Neo | $399 | 250³ | Open frame | 300°C | Budget speed |
The Plus4 stands out for high-temperature capability at a midrange price. If you print polycarbonate, nylon, or CF composites regularly, this is the key differentiator.
Who Is This For?
Buy the QIDI Plus4 if you:
- Print ABS, PC, Nylon, or CF composites regularly
- Want an enclosed CoreXY under $1,000
- Value open-source firmware and customization
- Want high-speed printing without endless tuning
- Have space for a large, heavy printer
Look elsewhere if you:
- Mainly print PLA/PETG and want the cheapest option
- Want multi-color printing right now (with a mature ecosystem)
- Prefer a lighter, smaller desktop footprint
- Want maximum UI polish out of the box
- Are uncomfortable with high-temp printer safety considerations
Verdict: A Specialized Tool That Delivers
The QIDI Plus4 isn’t a universal recommendation, but for the right user it’s a game-changer.
Active chamber heating + a high-temp, high-power hotend + a stiff CoreXY frame is an unusually strong combination at this price.
If your projects demand strength, heat resistance, and durability, this machine belongs in the conversation.
The SSR concern on early units is serious but manageable. If buying new from reputable channels, you should receive an updated unit, but it’s still wise to verify safety-related hardware before running long heated-chamber sessions.
Where to Buy
- Amazon (affiliate link) — often in stock with Prime shipping
- QIDI Official Store — direct from manufacturer
- Authorized resellers — check QIDI’s regional partner list
Tip: If buying used, verify the SSR upgrade. If buying new, still confirm the part before running long heated-chamber prints.
Next Steps After Purchase
- Update firmware and profiles as soon as you unbox.
- Consider safety verification if you plan to run the chamber heater for hours.
- Buy dedicated nozzles (one for PLA/PETG, one for high-temp/CF materials).
- Dry your filaments (nylon/PC/CF absorb moisture quickly).
- Join the community for profiles and troubleshooting tips.
- Watch for multi-color upgrades (QIDI Box) if that’s on your roadmap.
Frequently Asked Questions
What is metal 3D printing?
Metal 3D printing (additive manufacturing) builds metal parts layer by layer using techniques like laser powder bed fusion, directed energy deposition, and binder jetting. It enables complex geometries impossible with traditional manufacturing while reducing material waste significantly.
How strong are 3D printed metal parts?
3D printed metal parts can achieve mechanical properties comparable to traditionally manufactured metals. Tensile strength and fatigue resistance depend on the process and post-processing, but many meet or exceed ASTM standards for wrought materials.
What are the main metal 3D printing technologies?
The primary technologies include Laser Powder Bed Fusion (LPBF), Electron Beam Melting (EBM), Directed Energy Deposition (DED), Binder Jetting, and Metal FDM (with bound filaments). Each has different strengths in terms of resolution, speed, and material options.
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