DaveMakesStuff

Giant Spiralized Sphere

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Giant Spiralized Sphere 3d model
DaveMakesStuff
DaveMakesStuff
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Giant Spiralized Sphere 3d model
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Giant Spiralized Sphere 3d model
Giant Spiralized Sphere 3d model
Giant Spiralized Sphere 3d model
Giant Spiralized Sphere 3d model
Giant Spiralized Sphere 3d model
Giant Spiralized Sphere 3d model
Giant Spiralized Sphere 3d model
Giant Spiralized Sphere 3d model
Giant Spiralized Sphere 3d model
Giant Spiralized Sphere 3d model
Giant Spiralized Sphere 3d model
Giant Spiralized Sphere 3d model
Giant Spiralized Sphere 3d model
This model is restricted by licensing terms. 

Is it an ornament? Disco ball? Crystal ball? This 25cm diameter sphere prints in spiralized mode using only 220g of filament. That means you could print four of these giant spheres with a 1kg roll of filament!

See here for video: https://youtu.be/50sGR_oEPLs

Spiralized printing is great for translucent filament, and because it uses a relatively small amount of material for such a large object, don’t be afraid to use some of your specialty filaments to really make it pop!

For each sphere, you will need to print out two pieces. Be sure to use “spiralized” or “vase” mode and watch the first layer to be sure you have good bed adhesion. When in progress, this is a very delicate print. The ribbing on the outside of the sphere is there to provide some structural support but be careful not to bump it while is it printing!

Once printed, the pieces fit together loosely as in the video, so use a bit of glue if you want them held in place more securely. CA glues works well. Once glued, the sphere is surprisingly strong.

Here are some recommendations for spiralized printing:

  • Use thick layer heights, 0.2mm or greater
  • Set your “Bottom Layer” to 1
  • Try using a skirt for bed adhesion, but if that is not working then try a brim. You will just have to remove the brim afterwards and that can be messy.
  • If you get funny stringing on the top layer, try moving the z-seam alignment around

AI generated description:

Discover the Giant Spiralized Sphere 3D model on thangs.com, an exceptional creation by renowned designer DaveMakesStuff. Classed under the seasonal and Christmas category, this model provides an entertaining and challenging printing experience, offering an end product that adds charm and elegance to any setting. Visually, it stands out with a fascinating spherical shape and intriguing ribbed texture, reminiscent of luxurious disco balls or captivating crystal ornaments.

Crafted with resourcefulness in mind, the Giant Spiralized Sphere requires only 220g of filament for a 25cm diameter print, allowing you to print up to four spheres from a single 1kg roll of filament. Designed for spiralized or vase mode printing, this model is particularly suited for translucent filaments and even your specialty filaments, enhancing its appearance with breathtaking effects.

The structure of the Giant Spiralized Sphere consists of two pieces, each needing cautious attention during the printing owing to its delicate design. However, the innate ribbed exterior lends additional support to withstand the printing process and, once glued together using CA glue, it results in a surprisingly strong, eye-catching sphere.

Regardless of whether you're trying to add a special touch to your holiday decor or want a unique item on your shelf, the Giant Spiralized Sphere 3D model is an admirable choice. Ensure to follow the recommended settings for spiralized printing, including using thicker layer heights (0.2mm or greater), setting the bottom layer to 1, and utilizing a skirt for bed adhesion. If you encounter stringing on the top layer, simply adjust the z-seam alignment.

Embrace the joy of 3D printing with the Giant Spiralized Sphere, an eye-catching, efficient, and rewarding model available on thangs.com. Dive into the expansive world of 3D models and transform filament into an imposing sphere that's sure to impress!


652 Likes1.6K DownloadsNovember 19, 2023



652 Likes1.6K DownloadsNovember 19, 2023
This model is restricted by licensing terms.