Zirconium diboride (ZrB2) has high melting point, high modulus, high hardness, high thermal conductivity and electrical conductivity, and good thermal shock resistance due to its strong chemical bond.The composite ceramics made of zirconium diboride as raw materials have excellent comprehensive properties. Zirconium diboride (ZrB2) can be used as a modifier for carbon-carbon and carbon-ceramic composite functional materials, which can greatly improve the strength of carbon fibers and increase fatigue resistance. For wear resistance and high temperature resistance, the modification effect is very obvious, and all indexes are greatly improved.
| Model | APS(D50) | Purity (%) |
O(%) | C(%) | Fluidity | Shape |
| ZrB₂ 0003 | 10.0-60.0um | >99.5 | ≤0.5 | 18.0~19.1 | 18.3 S/50g | Spherical or quasi-spherical |
| ZrB₂ 0008 | -100+325mesh | >99.9 | ≤0.3 | 18.0~19.1 | 12.5 S/50g | Spherical or quasi-spherical |
| Application: plasma spraying, thermal cladding, 3D printing ( Customized chemicalcomposition and particle size can be made according to customer requirements.) | ||||||
| Model | APS(D50) | Particle size distribution range | ||||
| ZrB₂ 0003 | 10.0-60.0um | <325mesh≯10%,>100mesh≯5%,-100+325mesh≥80% | ||||
| ZrB₂ 0008 | -100+325mesh | <10.0um≯10%,>60.0um≯5%,10-60um≥80% | ||||
