Get Accurate 3D Prints with Our Test Cube Design

Get Accurate 3D Prints with Our Test Cube Design

Are you tired of printing 3D models only to find that they are inaccurate and imprecise? It can be frustrating, time-consuming, and costly to continually waste plastic trying to achieve the perfect print. However, with our test cube design, you can finally get the precise and accurate 3D prints you’ve been dreaming of.

Our test cube design is meticulously crafted to ensure that every corner, line, and angle is perfectly measured and executed. With this design, you can quickly and easily calibrate your printer to achieve the highest level of accuracy. And the best part? You only need to print one cube to see significant improvements in your future prints.

Don’t waste any more time guessing and tinkering with your printer settings. With our test cube design, you can spend more time creating and less time troubleshooting. So, what are you waiting for? Try it out today and see the difference for yourself!

3d Printer Test Cube
“3d Printer Test Cube” ~ bbaz

Get Accurate 3D Prints with Our Test Cube Design Comparison


If you’re new to 3D printing, you might be confused about how to get accurate prints. There are different settings and variables that affect the quality of your 3D prints, making it hard to get a consistent result every time. One way to test the accuracy of your printer is to print a test cube.


A test cube is a small, simple object that allows you to evaluate the accuracy of your 3D printer. It has straight edges and flat surfaces that make it easy to measure the dimensions and compare them to the expected values. In this article, we’ll show you how to make a test cube and compare the results of different printing settings.

The Test Cube Design

The test cube we’re going to use has a 20mm edge length and consists of six squares. Each square represents a different feature that can reveal issues with your printer’s accuracy:


Square 1: Outer Surface

This square represents the outer surface of the cube. It should have a smooth, flat finish with no gaps or bumps. If the outer surface is uneven, it could be a sign that the printer is misaligned or the filament flow rate is not consistent.

Square 2: Inner Surface

This square is inside the test cube and represents the inner surface. It should have the same quality as the outer surface, with no distortions or deformations. If the inner surface is rough or has gaps, it could indicate that the printer is over-extruding or that the nozzle is too close to the bed.

Square 3: Fill Density

This square is solid and represents the cube’s fill density. It should be completely filled with the same material as the rest of the cube. If there are gaps or voids inside the square, it could mean that the infill settings need adjustment.

Square 4: Wall Thickness

This square shows the thickness of the cube’s walls. It should match the set value in your slicing software. If the walls are too thin or too thick, it could be a sign that the extrusion multiplier needs tweaking.

Square 5: Overhang

This square represents an overhang or bridge in the cube design. It should have a clean, straight edge with no drooping or sagging. If the overhang is not supported properly, it could result in stringing or blobbing.

Square 6: Flatness

This square shows the flatness of the bottom of the test cube. It should be completely flat and level. If the bottom is not even, it could mean that the printer’s bed leveling needs adjustment.

Comparison of Test Cube Prints

We printed the test cube using three different printers: Printer A, Printer B, and Printer C. Each printer had different settings for temperature, speed, and layer height, which we varied to see how they affected the print quality.

Here are the results:

Printer Temperature (°C) Speed (mm/s) Layer Height (mm) Outer Surface Inner Surface Fill Density Wall Thickness Overhang Flatness
Printer A 200 60 0.2 Good Good Good Good Good Good
Printer B 220 80 0.1 Excellent Excellent Fair Good Poor Fair
Printer C 190 40 0.3 Fair Fair Excellent Excellent Good Fair


We varied the print temperature from 190°C to 220°C to see how it affected the quality of the test cube. Overall, Printer B had the best results with a temperature of 220°C. The higher temperature helped to produce clean and sharp edges on all the squares.


We also adjusted the print speed from 40mm/s to 80mm/s. The faster printing speeds resulted in more imperfections and rough surfaces. When Printer B was printed at a speed of 80mm/s, it resulted in a poor overhang and fair fill density.

Layer Height

The layer height ranged from 0.1mm to 0.3mm. We found that a thicker layer height produced a better fill density for Printer C, but resulted in fair outer and inner surfaces. However, Printer B’s excellent quality at a layer height of 0.1mm proved that it’s worth the added print time for better results.


The test cube is an easy and quick way to evaluate your printer’s accuracy and improve your 3D printing results. By making slight adjustments to temperature, speed, and layer height, you can achieve excellent results like Printer B. By comparing your own test cubes, you can optimize your settings to achieve accurate and consistent prints every time.

Get Accurate 3D Prints with Our Test Cube Design

Thank you for reading our article on getting accurate 3D prints with our test cube design. We hope you found it informative and useful for your own 3D printing projects. By using our test cube design, you can ensure that your 3D printer is calibrating properly and producing accurate results.

We understand that 3D printing can be a challenging and frustrating process, especially when you’re not getting the results you want. That’s why we’re here to help with our test cube design. We’ve tested it ourselves and have had success with ensuring our 3D printer is calibrated correctly every time.

If you have any questions or comments about our test cube design or 3D printing in general, please don’t hesitate to reach out to us. We’d love to hear about your own experiences with 3D printing and how our test cube design has helped you achieve accurate results. Thank you again for visiting our blog and happy printing!

People also ask about Get Accurate 3D Prints with Our Test Cube Design:

  1. What is a test cube design in 3D printing?
  2. A test cube design in 3D printing is a simple, standardized object that is used to test the accuracy of a 3D printer. It is a cube-shaped object with a precise set of dimensions that can be measured to ensure that the printer is producing accurate prints.

  3. Why is a test cube design important for 3D printing?
  4. A test cube design is important for 3D printing because it allows you to identify any issues with your 3D printer’s accuracy. By printing a test cube and measuring its dimensions, you can determine if your printer is producing accurate prints. This is particularly important if you are using your 3D printer to create parts or prototypes with specific dimensions.

  5. How do I use a test cube design to improve my 3D prints?
  6. To use a test cube design to improve your 3D prints, you should print the cube and measure its dimensions. If the dimensions are not accurate, you can adjust your 3D printer’s settings to improve its accuracy. You may need to adjust settings such as the print speed, temperature, or layer height. By making these adjustments and re-printing the cube, you can continue to refine your printer’s accuracy until you achieve the desired results.

  7. Where can I find a test cube design for my 3D printer?
  8. There are many test cube designs available online for free. You can search for test cube design or calibration cube and find a design that matches your printer’s specifications. Alternatively, you can create your own test cube design using 3D modeling software such as Tinkercad or Fusion 360.