The summary of ‘Extreme Resin Stacking 3D Prints – This is wild!’

This summary of the video was created by an AI. It might contain some inaccuracies.

00:00:0000:14:00

In the YouTube video, Uncle Jesse, the creator, and the narrator showcase their experiences with resin 3D printing articulated dragons, predominantly using Elgoo resin printers such as the Mars 3, Saturn, and Jupiter. Key points include resin stacking principles for maximizing build volume, the use of Wham-Bam flex plates for easy print removal, and scaling issues when printing larger models. The creators emphasize the importance of support structures and resin usage efficiency, with a focus on the detailed resin stacking technique. They address challenges such as support removal and curing of large prints, with detailed measurements of the printed dragons' size and weight. Overall, the video highlights the capabilities of resin 3D printing for creating intricate and large-scale objects, showcasing the potential of stacking prints for efficient production.

00:00:00

In this segment of the video, Uncle Jesse discusses his attempt at resin 3D printing an articulating dragon using resin stacking principles to maximize build volume. He initially printed it on the Elgu Mars 3 but ran out of resin during a nine-hour print on the Elgoo Saturn. After cleaning the vat and failed prints, he attempted a reprint. The video is sponsored by Elgoo, highlighting their resin 3D printers such as the Mars 3 and Saturn, with a tease of printing on the LG Jupiter. Uncle Jesse thanks Elgoo for sponsoring the project.

00:03:00

In this segment of the video, the creator mentions using Elgu resin for their 3D prints and ensures proper printing by adding more resin during the print. They successfully remove the print from the build plate using a Wham-Bam flex plate, highlighting the ease of removal and minimal supports used in the print. The creator also discusses scaling up a dragon print for the Elgoo Jupiter, facing initial printing issues due to scaling, but resolves it by adjusting the file and successfully printing after re-slicing.

00:06:00

In this segment of the video, the narrator showcases a massive resin 3D print created on the Elgoo Jupiter printer, which maximized the entire build volume of the printer. The narrator compares it to another model, describes the challenge of removing supports without a flex plate, and mentions a guest visiting. They discuss the detailed support tower required for the large dragon print, estimating it used a significant amount of resin. The narrator mentions the auto-refilling system on the Jupiter was crucial for such a large print. The segment ends with the narrator admiring the size and weight of the printed dragons, planning to weigh and measure them.

00:09:00

In this segment of the video, the speaker discusses curing the large resin prints in a UV bucket after they couldn’t fit in the curing station. They also showcase the size and weight of the prints, with the blue dragon measuring just under 8 feet and the red dragon over 11 feet long. The speaker is impressed by the prints holding up well during the printing process. The weight of the prints and supports are measured, with the red dragon weighing two pounds and 2.4 ounces. The speaker highlights the intricate resin stacking technique used for these prints and suggests it as a more accurate way of printing detailed structures.

00:12:00

In this segment of the video, the narrator discusses their experience printing an 11-foot long object on the LG Jupiter resin 3D printer. They mention the challenge of support removal but are impressed with the printer’s capabilities given its build volume limitations. The narrator provides a link for those interested in printing similar models and thanks their Patreon supporters. They also compare resin usage between different printers and recommend stacking prints as a more efficient method for creating large objects.

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