Hydroseeding, Soil Stabilisation & Dust Suppression
Binder-based hydroseeding systems designed to stabilise soil, control dust, and support the establishment of seed payloads.
Binder-based systems for hydroseeding, dust suppression, and soil stabilisation
These formulations bind, penetrate, and stabilise soil while supporting regenerative hydroseeding.
Anchor seed payloads to soil substrates until germination
Agglomerate fine and ultra-fine soil particles into a stable surface matrix
Form a crusted soil foundation to improve resistance to erosion and dusting
Rewettable binders absorb dew and irrigation to regenerate the matrix after disturbance
Biodegradable while resisting rapid bacterial degradation
Hydroseeding System Design
These hydroseeding systems use active binder and surfactant chemistry to control how seed, mulch, and soil interact during the establishment phase.
Key design characteristics include:
Dual or triple binder systems that secure seed and soil aggregates.
Controlled wetting and homogenous distribution to ensure consistent coverage across variable substrates
Inherent compatibility with mulches, colourants, growth stimulants, seeds and fertilisers
Pre-dissolved for fast preparation of tank-mixes
This approach prioritises predictable behaviour during application and early germination, particularly under changing moisture conditions.
Dust Suppression Performance
Particle-binding systems designed for persistent dust control in fine soils
Dust suppression performance is achieved through controlled agglomeration of fine particles, forming a stable surface matrix rather than a brittle surface seal.
Key performance characteristics include:
Binding of fine and ultra-fine particles into a cohesive surface layer
Reactivation of binders in response to dew, rainfall, or irrigation
Rainfast behaviour that maintains surface stability between wetting cycles
This system design supports sustained dust control without relying on high frequency reapplication.
Soil Stabilization Approach
Substrate-penetrating stabilisation for surface integrity and erosion resistance
Soil stabilisation is achieved through penetration and binding within the upper soil layer, forming a stabilised crust that resists wind-erosion and promotes moisture-driven repair after mechanical disturbance.
Key design characteristics include:
Penetration into the soil profile to create a stabilised surface structure
Adhesion across both hydrophobic and polar soil types
Stable flow rheology to support uniform application and predictable coverage
This approach focuses on soil behaviour under real site conditions, rather than short-term surface treatment.
Consistent performance, reliable chemistry, practical application
Binder-Based Formulation Design
Active concentrate systems designed to bind soil, seed, and surface particles effectively.
Application Efficiency
Low-volume concentrates with pre-activated chemistry, eliminating the need for dissolving powders or solids.
Environmental Considerations
Ultimately biodegradable formulations that are non-toxic to land and aquatic biomes.
Proven Functional Performance
Resistant to premature UV breakdown and microbial attack, with stable performance across varying conditions.
How it works
Simple, application-focused, performance-led systems.
1. Discuss your requirements
Application conditions, surface type, and performance objectives are defined.
2. Design and testing
Application rates and dilution is based on soil type, application method, and environmental exposure.
3. Production and supply
Concentrated systems are supplied with consistent quality and clear application guidance.