SinoDiam – Precision Particle Size Distribution for Superior Industrial Performance.
In synthetic diamond micron production, particle size control determines cutting efficiency, surface finish quality, and process repeatability. At SinoDiam, advanced precision grading systems and laser diffraction measurement ensure each batch achieves consistent particle size distribution (PSD), reducing variability during tool manufacturing and application.
Accurate control of micron range — from sub-micron powders to coarse grits — directly impacts tool sharpness, wear rate, and heat generation. This is especially critical for metal bond diamond, resin bond diamond, and micron polishing abrasives used across industrial grinding and finishing operations.
Particle Size Classification Standards
| Micron Range | Particle Size Distribution (PSD) | Primary Application |
|---|---|---|
| 0.1–0.5 μm | Ultra-fine / narrow | Optical, semiconductor polishing |
| 1–6 μm | Tight | Precision lapping and surface finishing |
| 8–20 μm | Medium-wide | Grinding and mechanical removal |
| 30–60 μm | Controlled broad | Heavy-duty cutting and coarse polishing |
Why Particle Size Control Matters
Each diamond micron grade has a unique interaction with its bonding matrix and target material. Inconsistent size leads to uneven surface finish, localized heating, and premature tool wear. SinoDiam’s proprietary classification process combines centrifugal air separation and multi-stage sieving for unmatched consistency and reproducibility.
Performance Advantages
- Enhanced grinding uniformity and smoother surface finish
- Improved bond retention and reduced tool wear
- Greater thermal and mechanical stability during operation
- Precise batch-to-batch consistency for industrial tools
Related Technical Guides
- Thermal Stress Boundaries in Diamond Micron Processing
- Bond System Selection for Precision Grinding
- Understanding Micron Diamond Powder Classification
[SinoDiam-Industrial-Diamond|Particle-Size-Control|Micron-Distribution|Consistency|Precision-Grading|Process-Stability]
