The factors affecting the price of alumina ceramic pumps mainly include raw materials, production process, product requirements, etc.
Raw material cost
Purity and quality: The price of high-purity, high-quality alumina raw materials is relatively high, and the ceramic pumps made of them have better performance and the price will increase accordingly.
Market supply and demand: The market supply and price fluctuations of raw materials such as bauxite will directly affect the production cost and price of alumina ceramic pumps.
Production process
Molding process: Such as isostatic pressing, injection molding, etc. The complexity, productivity, and cost of different processes vary greatly. Advanced molding processes can improve product quality and performance, but they will also increase costs.
Sintering process: High-temperature sintering is a key link. Strict control of parameters such as sintering temperature, time, and atmosphere will affect the density, hardness, and strength of ceramics, and thus affect the price.
Processing accuracy: High-precision processing requires advanced equipment and technology. The processing is difficult and the price of high-precision products will be higher.
Product performance
Performance indicators: such as flow, pressure, corrosion resistance, wear resistance, and other performance indicators. Generally, the higher the performance indicators of the product, the higher the price.
Size: Large-sized, high-flow, high-lift alumina ceramic pumps are more expensive than small-sized products due to the large amount of material and difficulty in production.
Non-Ferrous Crucible Inc. is dedicated to manufacturing a wide range of high-performance ceramic components in the custom precision ceramic processing domain, encompassing materials such as Alumina, Zirconia, Boron Nitride, Aluminum Nitride, and Silicon Carbide. Our products boast exceptional performance and dependability, offering crucial support to our customers and enabling them to enhance production efficiency and optimize product performance.