Signet Training Ring JDBCo 3D print model

Versatile Signet Training Ring For Gravers And Stonesetters
Ready To Print 3D-Model For Jewelry Manufacturing.

Unlock your jewelry artistry potential with our Versatile Signet Training Ring. This meticulously designed ring serves as an ideal practice piece for aspiring gravers and stonesetters, allowing you to hone your skills on a professional-grade model. The signet top provides ample space for intricate engravings or stone settings, making it the perfect canvas to express creativity and precision. Whether you're training under expert guidance or practicing solo, this ring offers the essential experience needed to master delicate techniques. Elevate your craftsmanship journey with a training tool that mirrors real-world applications.

Designed by JDBCo

Model details:
(calculated)

Model file: model_main.stl
Size X: 12.147 mm
Size Y: 26.113 mm
Size Z: 28.466 mm
Polygons: 24900
Vertices: 12452
Volume: 867.513 mm³
Surface Area: 1278.433 mm²

Model file: model_part2.stl
Size X: 12.147 mm
Size Y: 26.113 mm
Size Z: 28.466 mm
Polygons: 24762
Vertices: 12383
Volume: 867.507 mm³
Surface Area: 1278.393 mm²

Model file: model_part3.stl
Size X: 11.135 mm
Size Y: 17.927 mm
Size Z: 3.120 mm
Polygons: 4038
Vertices: 2021
Volume: 192.073 mm³
Surface Area: 383.421 mm²

Weights in materials:
(calculated)
Platinum: 41.24 g
Gold 18K: 32.57 g
Gold 14K: 24.67 g
Silver: 20.23 g

Our jewelry designs can generally be produced with any of the following metals: gold (yellow, white, rose), silver, platinum, other metals.

Actual sizes and weights may vary from the calculated values.

Our jewelry designs can generally be manufactured using the following primary methods:

1. 3D Printing (Additive Manufacturing)

• Method: Using 3D printers with materials like PLA (Polylactic Acid), resin, wax, plastic, or metal.
• Applications: Creating detailed prototypes and final models. High precision, capable of producing complex geometries.
• Materials: PLA for easy printing and eco-friendliness, resin for high detail and smooth surface finishes, wax and plastic for prototyping, metal for final pieces.

2. Investment Casting

• Method: Creating a wax model via 3D printing or CNC machining, then casting metal.
• Applications: Producing high-quality metal pieces suitable for mass production. Uses 3D printed models made from PLA, resin, or wax.

3. CNC Machining

• Method: Using computer-controlled machines to cut and shape metal.
• Applications: Producing precise and larger items. Suitable for complex designs and high precision.
• Materials: Metal for final products.

Also, possible to use the secondary methods:

4. Electrical Discharge Machining (EDM)

• Method: Shaping metal using electrical discharges.
• Applications: Creating very complex shapes with high precision.
• Materials: Metal for detailed and intricate designs.

5. Laser Cutting and Engraving

• Method: Using lasers to cut and engrave materials.
• Applications: High precision cutting and engraving for various materials, fast processing.
• Materials: Metal, plastic, and other suitable materials for detailed cuts and engravings.