|
Still deciding? Get samples of $ !
Request Sample
|
| Customization: | Available |
|---|---|
| Feature: | Long Time Materials, Instant Materials |
| Refractoriness (℃): | 1380 |
Suppliers with verified business licenses
Audited Supplier Audited by an independent third-party inspection agency
In industrial applications, silicon carbide ceramic pump impellers, with their outstanding performance, are widely used in fields such as chemical engineering, petroleum, power, and metallurgy. In the chemical industry, it is used to transport corrosive media such as acids and alkalis. Its corrosion resistance and wear resistance can significantly reduce the frequency of equipment maintenance and downtime. In the petroleum industry, silicon carbide pump impellers are suitable for the transportation of drilling fluids and crude oil under high temperature and high pressure. Their high strength and thermal stability ensure the reliability of long-term operation. In the power industry, it is often used in circulating pumps and feed water pumps, especially in nuclear power and thermal power systems, where its radiation resistance and high-temperature resistance enhance safety. In addition, in the fields of metallurgy and environmental protection, this impeller can be used to handle slurries containing solid particles, and its wear resistance extends the service life of the equipment. Baide Ceramics Co., Ltd. provides high-performance impeller solutions for these industries through customized services, helping enterprises enhance efficiency and reduce costs.
Silicon carbide ceramic pump impellers have advantages such as high hardness, corrosion resistance, and good thermal stability in terms of material properties. Compared with other industrial ceramic materials, they perform more reliably under extreme working conditions. This product has shown broad application prospects in multiple industrial fields and is expected to promote the development of pump equipment towards high performance and long service life in the future.
Photos for reference:
| Silicon Carbide Product Specification: | ||||
| Item | Unit | SSIC | RBSIC SISIC | R-SIC |
| Purity | ( % ) | ≥ 99 | ≥90% | ≥ 99 |
| Application temperature | ºC | 1700 | 1380 | 1650 |
| Density | g/CM2 | ≥3.10-3.15 | ≥3.02 | 2.65-2.75 |
| Open porosity | % | ≤0.1 | ≤0.1 | |
| Hardness | ≥92 HRA | 2400 Kg/mm2 | 1800-2000 Kg/mm2 | |
| Bending strength | MPa | 400-580 | 250(20ºC) | ≥300 |
| 281(1200ºC) | ||||
| Tensile strength | Mpa | ≥200 | ≥190 | |
| modulus of elasticity | GPa | 400 | 332(20ºC) | 80-100(20ºC) |
| 300(1200ºC) | 90-110(1200ºC) | |||
| Thermal Conductivity | W/m.k | 100-120 | 45(1200ºC) | 36 |
| Coefficient of thermal expansion | K1X 106 | 4.2 | 4.5 | 4.6 |
| Rigidity | Gpa | >25 | 13 | |
| Acid&Ikali resistance | Excellent | Excellent | Excellent | |
| SiC Product Specification: | ||||
| Item | Unit | OC-1 | OC-2 | MC-3 |
| SiC | (%) | ≥90 | ≥86 | ≥80 |
| Apparent Porosity | (%) | ≤10 | ≤13 | ≤16 |
| Density | g/CM2 | ≥2.66 | ≥2.63 | ≥2.6 |
| Application temperature | ºC | ≥1680 | ≥1620 | ≥1550 |
| Coefficient of thermal expansion | aX 10-6/ºC | ≤4.8 | ≤5.0 | ≤5.5 |
| Bending Strength | 1200ºC | ≥45 | ≥40 | ≥30 |
Our Customer visit pictures:
){kind=link}