The Artemis 14-Inch Project: Pushing the Limits of Resin Art

Innovation often starts with a challenge from the community. Recently, a customer from Reddit reached out with an ambitious vision: a custom Artemis rocket lamp standing a massive 14 inches tall. This “Giant” is double the height of our standard flagship models, representing a significant leap in scale.

1. The Benchmark: Our Successful Size XXL

Before tackling the 14-inch monolith, we had already mastered the Size XXL. These models set our standard for high-detail resin casting and the iconic launch glow.

The Gold Standard: Our successfully completed XXL Artemis lamp in action.

2. The Scale of Ambition: 14-Inch vs. Standard Sizes

To truly understand the “Giant,” you have to see it next to its predecessors. Before positioning it for the pour, we lined up the 14-inch model alongside our standard L and XL sizes. The difference is staggering – it doesn’t just stand taller; it commands the entire space.

Scale Comparison: A cinematic pan showing the 14-inch Artemis towering over the standard L and XL models.
Side-by-Side: The sheer volume of the 14-inch model is nearly 15 times that of the standard versions (size L).

3. Phase 1: Preparation and the Initial Attempt

The scale of this project was apparent from day one. We began by meticulously positioning the 14-inch structure inside its custom-built mold.

Mission Startup: Positioning the 14-inch Artemis model before the first pour.

To prepare for the massive volume, we used heavy-duty mixing tools to ensure the resin remained crystal clear. We then proceeded with the initial pour, capturing the resin as it began to fill the custom-built housing.

Preparation: High-torque mixing for the 14-inch resin volume.
The Beginning: The first liters of resin being poured into the custom mold.

4. The Setback: Thermal Runaway

This is where the laws of physics presented a major hurdle. Because the resin layer was so thick, the massive volume triggered an intense exothermic reaction. In the video below, you can see the exact moment the heat became unmanageable – causing large air pockets and distortions to form around the rocket.

The Moment of Failure: A top-down view showing the heat-induced distortions and air pockets forming around the model.

The heat trapped inside the mold rose so rapidly that it caused severe internal stress fractures and visible cracks, completely damaging the first model.

Evidence of Heat: A detailed look at the internal cracks and stress fractures caused by the thermal peak.

5. Mission Status: Engineering the Solution

We aren’t giving up. To conquer the heat, we are moving into the next phase: a specialized two-layer pour protocol. By splitting the process into two stages, the thickness of each individual layer will be comparable to our standard XXL models – a scale we have already mastered with perfect results.

This refined approach allows us to effectively manage the thermal output, ensuring the internal model stays safe and the resin remains as clear as glass. In fact, multi-layer pouring is a core technique at our studio; all of our ocean-themed lamps are poured in at least two layers – some even require three or four – to achieve the beautiful effect of sea creatures “floating” at different depths.

Because this is a standard part of our professional process, I am highly confident that this method will lead to a successful, flawless finish for our 14-inch “Giant”.

Stay tuned—we will be posting the “Final Success” update and photos in just a few days!

Our ocean lamps utilize multi-layer pours to create depth and suspended life, a method we are now applying to the 14-inch Artemis project.

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