Micronized Calcium Carbonate Powder — Uncoated
Mesh 325 Calcium Carbonate — Uncoated Powder
MAD KOOHZAD's mesh 325 micronized calcium carbonate (Uncoated Powder) is produced with a 45 microns particle size. Standard PVC-industry grade with a good cost-to-performance balance.
Particle Size & Fineness
Particle size of 45 microns (mesh 325), with a bulk density of 1.25 – 1.45 g/cm³.
Whiteness Index
Whiteness index of 98.1 – 98.4%, suited to formulations sensitive to final color uniformity.
Oil Absorption
16 – 20 g/100g — matched to this particle-size range for precise formulation control.
This Grade's Key Advantage
Standard PVC-industry grade with a good cost-to-performance balance.
Industrial Applications of Mesh 325 Calcium Carbonate (Uncoated Powder)
Standard PVC-industry grade with a good cost-to-performance balance. This grade is primarily used in the following industries: Standard PVC pipes & profiles, Construction putty & sealants, General paper & board.
Mineral-base purity: 98.0% – 99.5% — Moisture: 0.2% max — pH (10% suspension): 8.5 – 9.5 (10% solution). Packaging available: 25 kg bags, Jumbo bags (500 – 1,000 kg), Bulk (truck / silo container).
Comprehensive Analysis of Mesh 325 Calcium Carbonate (Uncoated Powder): From Technical Data to Industrial Solutions
In this section, we go beyond the specification sheet and into the strategic depth of mesh 325 calcium carbonate. Our goal is to show you exactly how every technical parameter on the analysis sheet translates directly into a competitive advantage, a cost reduction, or a quality gain on your production line. This in-depth analysis helps you make the best decision for your business with full confidence.
Beyond an Additive: Mesh 325 Calcium Carbonate as a Strategic Investment
At MAD KOOHZAD, we don't sell calcium carbonate as a mere raw material; we deliver durable solutions for optimizing your production. Choosing a low-quality or unsuitable calcium carbonate carries hidden risks — weaker mechanical properties, color drift between batches, faster equipment wear, and ultimately, unhappy end customers. Our mesh 325 product, with its guaranteed purity and tightly controlled particle size, eliminates these risks. This product isn't a cost — it's an investment in stable quality, less waste, and protecting your brand's reputation in the market. We stand beside you to help you reach these goals.
Decoding the Analysis Sheet: What Every Number in the Spec Table Means for Your Business
A technical data sheet (TDS) isn't just a list of numbers — it's a roadmap to your formulation's success. Below, we break down the most important technical parameters of mesh 325 calcium carbonate:
1. Whiteness index 98.1 – 98.4% — technical significance: impurities such as silica (SiO₂) or iron oxide (Fe₂O₃) can abrade machinery, discolor the final product (especially in white and light-colored formulations), and trigger unwanted reactions. This product's high whiteness means maximum chemical stability and minimal negative impact on your process.
2. Oil absorption (16 – 20 g/100g) — economic significance: this parameter directly affects your product's finished cost. The lower a filler's oil absorption, the less of the expensive resins, lubricants, and plasticizers you'll need in your formula. Our product's controlled oil absorption means direct savings on your costs.
3. Precise 45 microns particle size (mesh 325) — functional significance: this is exactly this grade's "sweet spot." The particle size is fine enough to give good dispersion and a smooth surface in the final product, yet coarse enough not to make mixing complex or costly. This means achieving the desired mechanical properties without raising your process costs.
Specialized Solutions for Mesh 325: Solving Real Challenges Across Industries
Our mesh 325 calcium carbonate isn't a one-size-fits-all product — it's a precise solution for specific challenges in the following industries:
Plastics & compounding industry (PVC, UPVC) — Common challenge: Achieving maximum impact strength and rigidity in profiles and pipes while keeping production cost under control. MAD KOOHZAD's solution: This grade acts as a reinforcing filler, raising mechanical strength by filling voids in the polymer matrix. Its excellent dispersion prevents stress-concentration points and cracking. Result for you: A tougher final product at a more competitive price, with lower raw-material cost.
Paint & construction coatings industry — Common challenge: Raising paint hiding power while cutting consumption of titanium dioxide (TiO₂), the most expensive component in the formulation. MAD KOOHZAD's solution: With high whiteness and optimal particle-size distribution, it works as an ideal extender. By spacing titanium particles apart it raises their efficiency, letting you replace a significant share of titanium with calcium carbonate. Result for you: A marked drop in cost per kilogram of paint, with no loss of quality or hiding power.
Technical FAQ: Mesh 325 Calcium Carbonate
How does the "reduced TiO₂ consumption" claim for mesh 325 actually work in practice, and what's its limit?
This happens through what's called the "spacing effect." Expensive titanium-dioxide (TiO₂) particles tend to agglomerate in a formulation, losing hiding-power efficiency. Mesh 325 calcium-carbonate particles act as spacers, sitting between TiO₂ particles and optimally distributing them through the matrix — so each titanium particle shows its maximum light-scattering (hiding) power. Limit: this effect continues up to an "optimal point." Adding too much calcium carbonate can reduce gloss and abrasion resistance. Our specialists can help you find that optimal point for your specific formulation.
Does adding mesh 325 to a PVC compound reduce impact strength?
No — used correctly, it doesn't just avoid reducing impact strength, it can improve it. Mesh 325 calcium carbonate, with its controlled particle size, acts as a stress-transfer agent. When the product is struck, the calcium-carbonate particles spread the impact energy across the polymer matrix, preventing stress concentration at a single point and crack initiation. The key to this working is complete dispersion with no agglomerates — which our product guarantees.
Do I need special equipment or expensive additives to fully disperse mesh 325 in a resin or polymer?
That's exactly one of this grade's strategic advantages: ease of dispersion. Unlike finer meshes (such as mesh 400), which have higher surface energy and tend to agglomerate more, requiring high-speed mixers or dispersing agents, mesh 325 disperses well with standard industrial mixing equipment. This significantly lowers your process cost and production complexity.
What effect does mesh 325 have on the final product's surface finish?
This grade is a smart balance. For most applications suited to this particle-size range, the final surface will be fully uniform and defect-free. But if your goal is very high gloss or producing very thin plastic films, finer grades may give a better result. Conversely, if cost is the more important factor, mesh 200 can be a more economical alternative.
Export packaging — 25 kg laminated bag
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