Introducing Hy-Sailing Attapulgite: the quintessential choice for enhancing fertilizer efficiency and crop productivity with its remarkable natural properties.
Discover the unparalleled properties of attapulgite clay, a non-metallic mineral wonder. This magnesium aluminum silicate boasts a unique 2:1 layered structure that empowers it with remarkable characteristics.
Rod-shaped and fibrous crystals define attapulgite's distinctive form, with intricate layers and surface grooves lending it an impressive specific surface area, enhancing its efficacy in various applications.
Attapulgite's structure is a marvel of natural engineering, featuring variably sized pores and cavities that endow it with exceptional adsorption, ion exchange, and catalytic capabilities.
Its versatile structure can seamlessly absorb a wide range of cations, water molecules, and organic components, making it an indispensable tool for various industrial applications.
The benefits of attapulgite extend across multiple dimensions: enhancing soil and fertilizer utilization, enriching crops with essential nutrients, and boosting both yield and quality.
From industrial to agricultural spheres, attapulgite shines as a versatile solution, particularly excelling in compound fertilizers and soil enhancement sectors.
I, Enhancing Compound Fertilizer Adhesion
Through meticulous processing, attapulgite becomes an exemplary binder for compound fertilizers, delivering superior granulation rates, robust particle strength, and prolonged retention. It optimizes production, reduces energy consumption, and conserves costly materials like talcum powder and ammonium chloride.
Thus, it has become a trusted ally in the fertilizer industry, setting new standards for efficiency and sustainability.
A natural, eco-friendly mineral, attapulgite meets the stringent environmental standards required for composite fertilizer binders.
The unparalleled benefits of attapulgite as a fertilizer bonding agent include:
1.1. Enhancing fertilizer effectiveness while minimizing nutrient loss, ensuring optimal use of resources.
1.2. Amplifying the efficiency of compound fertilizers, maximizing their impact on crop yields.
1.3. Rapid granulation and heightened particle sturdiness are hallmarks of attapulgite's utility in fertilizer production.
1.4. As an intrinsic fertilizer, attapulgite contributes to soil health and productivity.
1.5. The rod's unique porous crystal structure enhances soil's physical attributes, particularly water permeability.
1.6. Attapulgite's ionic properties contribute to improved soil quality and fertility.
II. Attapulgite as a Functional Adsorption Carrier for Slow-Release Fertilizers
Innovative Slow Release Carrier Particles
Boasting ion exchange and porosity, attapulgite excels in adsorption, separation, and regulation of N, P, K nutrients. It captures nutrients early in the fertilization process and releases them as soil concentrations diminish, ensuring sustained nutrient availability. Its versatility extends to coating applications, providing a controlled slow-release effect, thus maximizing nutrient retention.
Slow-release fertilizers benefit from carrier adsorption, forming a porous network that gradually releases nutrients as carriers desorb, dissolve, and degrade, ensuring consistent nutrient supply.
Attapulgite's silicon oxygen tetrahedra and aluminum oxygen octahedra layers are a testament to its robust structural composition.
A highly active mineral, attapulgite offers a generous specific surface area, impressive cation exchange capacity, and interlayer space that facilitate nutrient absorption and retention, underpinning its role in controlled fertilizer release.
Product Description
| Item No. |
Test Item |
Standard Specification |
| 1 |
Appearance |
A light, cream or buff, very fine powder, free or almost free from gritty particles |
| 2 |
Absorption Capacity |
The intensity of the 0.12% sample solution does not exceed 0.0012% of methylene blue standard solution |
| 3 |
Alkalinity |
7-9.50 |
| 4 |
Arsenic |
≤ 8.0PPM |
| 5 |
Heavy metal |
≤ 20.0 PPM |
| 6 |
Acid Soluble Matters |
≤ 0.25 mg |
| 7 |
Water Soluble Matters |
≤ 50.0 mg |
| 8 |
Loss on Drying (105 C) |
≤ 9.00% |
| 9 |
Particle size |
according to client request |
Packaging & Shipping
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