Kate G. - Nov 8st, 2025
QIDI Q2 Review: The Trade-off Between High-Temperature Capability and User Experience
As a fully enclosed desktop printer priced at $449, the QIDI Q2 has attracted widespread attention in the market. After one month of in-depth use and testing with various materials, we discovered some real-world usage experiences not mentioned in the product promotions.
Impressive Core Advantages
370°C High-Temperature Nozzle: Perfect for Engineering Materials
●PPS-CF Printing: Successfully produced high-strength engineering components
●PC Material Compatibility: Easily handles polycarbonate printing needs
●Composite Material Support: Effortlessly works with carbon fiber and glass fiber-filled materials
●Thermal Stability: No pressure during prolonged high-temperature printing
All-Metal Structure
●Durability: No deformation during long-term use
●Stability: Almost no vibration during high-speed printing
●Build Quality: Craftsmanship far exceeds products in the same price range
User Pain Points: Real Drawbacks You Should Know
1. Cooling Fan Noise Issues
●Noise reaches 65 dB during high-speed operation, affecting office environments
●Persistent Noise: Fan sound remains noticeable even in standby mode
●Night Printing: Particularly prominent in quiet environments
2. Excessive Build Plate Adhesion
●PPS-CF Material: Almost requires using a scraper to pry off forcefully
●PETG Printing: Easily damages the build plate surface coating
●Solution: Must wait for the build plate to cool completely
3. Heat Dissipation Design Flaws
●PLA Material Printing: Must open the top cover
●TPU Flexible Material: Requires opening the door to prevent overheating
●Inconvenience: Defeats the purpose of the fully enclosed design
4. Slicing Software Optimization Issues
●Default Configurations: Unstable print quality
●Best Results: Need to manually select slow speed mode
●Parameter Adjustment: Lacks intuitive preset optimization
5. Average Camera Performance
●Actual Resolution: Far below the advertised "HD" standard
●Monitoring Effect: Limited detail recognition
●Low-Light Conditions: Significant image noise
Practical Usage Recommendations
Material-Specific Settings
PLA/TPU Printing:
●Open the top cover
●Turn off chamber heating
●Enable auxiliary cooling
Engineering Material Printing:
●Keep the chamber closed
●Use slow speed mode
●Preheat build plate to 80°C
Optimized Printing Tips
1·Build Plate Treatment: Apply a small amount of release agent
2·Speed Settings: Preferred range of 50-80mm/s
3·Temperature Calibration: Each material requires individual testing
Competitive Product Comparison Considerations
Purchase Recommendations: For Specific User Needs
Highly Recommended For:
●Engineering Material Users: Need to print PPS-CF, PC, and other high-performance materials
●Tech Enthusiasts: Willing to spend time debugging and optimizing parameters
●Professional Users: Value high-temperature capability over ease of use
Think Twice If:
●Mainly Printing PLA/TPU: Heat dissipation design isn't ideal
●Office Environment Use: Fan noise might cause disturbances
●Seeking Out-of-Box Experience: Requires significant debugging time
Areas for Improvement
Urgently Needed Upgrades:
●Adjustable cooling fan system
●Improved build plate surface treatment
●Optimized slicing software presets
●Upgraded camera module
Final Evaluation
The QIDI Q2 is a device with distinct characteristics—it excels in high-temperature material printing but has obvious shortcomings in user experience. For users who genuinely need 370°C printing capability, these drawbacks might be acceptable; however, average users might need to think twice.
Overall Rating: 7.5/10
●High-Temperature Performance: 9.5/10
●Print Quality: 8.0/10
●User Experience: 6.0/10
●Value for Money: 7.5/10
Have you also used the QIDI Q2? Feel free to share your usage experience and solutions in the comments! 🔧
