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About Project

Looking for high-performance 3D printing materials that can withstand extreme temperatures? Look no further! Facfox's SLA High-temp Resin-140℃ is here to meet your needs.

We've recently put this advanced material to the test by printing two impeller miniatures. While SLA High-temp Resin-140℃ may not be perfect for small objects with intricate details, it excels in maintaining shape and structural integrity under high temperatures.

Test Results

• Miniature 1: The tips of the impeller broke during printing.
• Miniature 2: The tips remained intact, but the blade edges were not smooth and sharp, with tiny rough patches visible on the surface.

Key Features

• Consistency: Despite minor imperfections, the blades of both miniatures were evenly spaced and consistent in thickness.
• Durability: There were no noticeable warping or deformation issues, ensuring that the print maintained its intended shape.
• Finish: The matte surface appeared smooth and uniform, with visible layer lines.

While this material may not be ideal for printing small objects with intricate details, it demonstrates excellent performance for larger parts and components that require high-temperature resistance.

Why Choose Facfox's 3D Printing Service?

• Advanced Materials: We offer a wide range of high-performance materials to suit your specific needs.
• Quality Assurance: Our prints are reliable, durable, and of the highest quality.
• Expert Support: Our team of experts is here to help you every step of the way, from design to final product.

Experience the power of high-temp SLA 3D printing with Facfox and elevate your projects to the next level!

Solution

• Step 1: A 3D computer-aided design (CAD) model of the impeller miniatures was created.
• Step 2: The CAD model was sliced into thin, horizontal layers by specialized 3D printing software.
• Step 3: A vat of high-temp resin (140℃) was prepared and loaded into the SLA 3D printer.
• Step 4: A laser beam was directed onto the surface of the resin, curing each layer according to the sliced digital model.
• Step 5: The build platform, holding the partially cured object, was lowered incrementally after each layer was cured.
• Step 6: Support structures, used to hold the object during printing, were carefully removed from the finished part.