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Articulated Mech — Zenith Arbiter ZA-44 || Print-in-Place

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Jaatinen3D
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bryan.murphy0001
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Image 9 of 10
Articulated Mech — Zenith Arbiter ZA-44 || Print-in-Place - I tried to print twice and both failed.  The first was my fault, I was pushing my luck with my quality settings, no glue, and zero supports.  The second print was coming along great until the bottom part of the shoulder joint (the ball) popped out of the socket mid print.  Any ideas how to mitigate that happening again?

I took a closer look.  The ball on the left was very clean and round.  Came to a crisp point touching the base.  The ball on the right was very sloppy and there were some stray strands underneath it.   I think it failed almost immediately, probably because the point touching the base is so small.

Perhaps making the ball a little flatter would help? - 3d model
bryan.murphy0001
bryan.murphy0001
|
|
Image 9 of 10
Articulated Mech — Zenith Arbiter ZA-44 || Print-in-Place - I tried to print twice and both failed.  The first was my fault, I was pushing my luck with my quality settings, no glue, and zero supports.  The second print was coming along great until the bottom part of the shoulder joint (the ball) popped out of the socket mid print.  Any ideas how to mitigate that happening again?

I took a closer look.  The ball on the left was very clean and round.  Came to a crisp point touching the base.  The ball on the right was very sloppy and there were some stray strands underneath it.   I think it failed almost immediately, probably because the point touching the base is so small.

Perhaps making the ball a little flatter would help? - 3d model
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Articulated Mech — Zenith Arbiter ZA-44 || Print-in-Place 3d model
Articulated Mech — Zenith Arbiter ZA-44 || Print-in-Place 3d model
Articulated Mech — Zenith Arbiter ZA-44 || Print-in-Place 3d model
Articulated Mech — Zenith Arbiter ZA-44 || Print-in-Place 3d model
Articulated Mech — Zenith Arbiter ZA-44 || Print-in-Place 3d model
Articulated Mech — Zenith Arbiter ZA-44 || Print-in-Place 3d model
Articulated Mech — Zenith Arbiter ZA-44 || Print-in-Place 3d model
Articulated Mech — Zenith Arbiter ZA-44 || Print-in-Place - Awesome Model! 
Prints Perfectly! 
I love the ball joints that lock into place  - 3d model
Articulated Mech — Zenith Arbiter ZA-44 || Print-in-Place - I tried to print twice and both failed.  The first was my fault, I was pushing my luck with my quality settings, no glue, and zero supports.  The second print was coming along great until the bottom part of the shoulder joint (the ball) popped out of the socket mid print.  Any ideas how to mitigate that happening again?

I took a closer look.  The ball on the left was very clean and round.  Came to a crisp point touching the base.  The ball on the right was very sloppy and there were some stray strands underneath it.   I think it failed almost immediately, probably because the point touching the base is so small.

Perhaps making the ball a little flatter would help? - 3d model
Articulated Mech — Zenith Arbiter ZA-44 || Print-in-Place 3d model
This model is restricted by licensing terms. 


Update 2024-04-07: Added FATFOOT variant that is easier to print with thicker feet and some built-in supports for the ball joints!


 

Articulated, print in place medium battlemech with Push-Lock joints that allow the model to be posed in any position!

This model should not need supports, but there are some bridging overhangs. If you don't trust your printer to manage them, you can add some supports touching buildplate.

The feet don't have much contact area to the bed, so I recommend using brims for them if you can.

See a 360° here: https://youtube.com/shorts/yCDdJEoBZmk

 


 

The Zenith Arbiter ZA-44 was developed by Zenith Dynamics, a cutting-edge military technology corporation, in response to the escalating conflicts on the frontiers of human-colonized space. As tensions rose between various factions and corporations vied for control of resource-rich planets, there was an increasing demand for advanced combat mechs capable of navigating diverse terrains and delivering decisive firepower.

The ZA-44 project emerged as a response to these demands, aiming to create a versatile medium battlemech that could excel in both urban environments and rough planetary landscapes. Zenith Dynamics brought together a team of brilliant engineers, military strategists, and AI specialists to design and develop the ZA-44.

The Zenith Arbiter ZA-44 stands at 15 meters tall, with a sleek and modular design that allows for easy customization based on mission requirements. Its primary chassis is composed of a lightweight yet durable alloy, providing a balance between armor protection and agility. The mech's limbs are equipped with advanced hydraulics and articulation systems, allowing it to traverse challenging terrains with ease.

The ZA-44 is armed with an array of weaponry, including a dual autocannons for sustained firepower, energy-based lasers for precision targeting, and shoulder mounted missile pods for engaging multiple targets at once. The mech's on-board AI system, codenamed "Arbiter Core," enhances its combat capabilities by processing vast amounts of battlefield data in real-time, allowing for quick decision-making and adapting to changing situations.

One of the standout features of the ZA-44 is its adaptive camouflage system, which enables it to blend seamlessly with its surroundings, providing both offensive and defensive advantages. This technology was a breakthrough in stealth capabilities for a mech of its size, making it a formidable opponent on the battlefield.

The Zenith Arbiter ZA-44 quickly gained recognition for its versatility and effectiveness in a variety of combat scenarios. It became a staple in the arsenals of both private military contractors and government forces, earning a reputation as a reliable and adaptable medium battlemech that could turn the tide of any engagement.


126 Likes316 DownloadsFebruary 2, 2024


126 Likes316 DownloadsFebruary 2, 2024
This model is restricted by licensing terms.