Description: Expertly melt and assay precious metals with our 00 Gram Ceramic Alumina Crucibles. Perfect for jewelers, it's designed for melting gold, silver, and copper alloys. With high heat resistance and durability, this crucible is a must-have for any serious jeweler, refiner or hobbyist. This ceramic crucible melt dishes is perfect for those in the jewelry and metals industry. Made of high-quality ceramic and alumina, these dishes are suitable for casting and assaying gold, silver, and platinum. The dishes are white in color and are branded as PresidentGolds. The dishes are great tools for anyone looking to create or repair jewelry. They are a must-have for those who work with precious metals and want to ensure the best quality for their customers. With this set, you can easily melt and pour your metals without worrying about the condition of the dish. Trust in the quality and durability of PresidentGolds and order your set today! Uses: Before melting the gold and silver, borax should be placed at the bottom of the bowl to prevent the gold and silver from sticking to the bottom of the bowl after melting. The melting bowl is easy to absorb moisture, preheat and gradually heat before use to prevent the water from freezing and bursting Material Specifications: Alumina (Al2O3) Crucibles Melting point – 2,072 °CRecommended Max working temperature – 1,600 °CMax ramp rate - 5 °C/min <1200 °C or 4 °C/min >1200 °CMax cooling rate - 2 °C/minAvoid Thermal gradients
Price: 14.95 USD
Location: Norristown, Pennsylvania
End Time: 2024-11-12T02:22:11.000Z
Shipping Cost: 0 USD
Product Images
Item Specifics
Return shipping will be paid by: Buyer
All returns accepted: Returns Accepted
Item must be returned within: 30 Days
Refund will be given as: Money Back
Brand: PresidentGold.Net
Type: Crucible
Unit Type: Unit
Seller Warranty: Yes
Color: White
Material: Ceramic
Set Includes: None
MPN: PG1000
Country/Region of Manufacture: United States
Unit Quantity: 1
Suitable For: Casting, Jewelry Making, Metalsmithing
California Prop 65 Warning: None
