Understanding High Energy Impact Compaction (HEIC)

A green tractor with a yellow attachment is parked on a large, dusty field under a clear blue sky, ready for proof rolling. Trees and a few buildings are visible in the distant background.

High Energy Impact Compaction (HEIC) revolutionises ground improvement with its ability to achieve superior soil density and stability. Unlike traditional methods, HEIC uses advanced rollers and compaction technology to penetrate deeper soil layers.

HEIC’s Role in Sustainable Construction Practices

A yellow and black road roller, emblematic of sustainable construction practices, is parked on a grassy field. The machine's large cylindrical drum at the front efficiently compacts soil. Trees and a cloudy blue sky provide a serene backdrop to this scene.

HEIC boosts sustainable construction by stabilising soil, cutting environmental impact, and reusing existing land. It’s a fast, efficient way to build stronger, longer-lasting infrastructure while protecting the environment.

Intelligent Compaction Measurement (ICM)

A green tractor with large yellow wheels is towing a heavy yellow roller on a construction site. The sky is overcast, and there are industrial buildings in the background. The ground appears to be dirt or gravel.

ICM optimises HEIC with real-time data, ensuring uniform soil compaction for stronger, sustainable infrastructure. It reduces material use, energy consumption, and maintenance, making construction greener and more efficient.

What is HEIC?

A green tractor with yellow wheels is towing a large, heavy yellow roller on a dirt field, enhancing accelerated consolidation. The background features trees and a clear blue sky.

HEIC compacts soil with high-energy impacts, boosting stability, reducing excavation, and saving costs. Landpac delivers efficient, tailored solutions for ground improvement.

Understanding Relative Soil Strength Before and After Deep Compaction

Aerial view of a yellow tractor with a roller attachment working on a large field. The ground is marked with neat lines and a row of small red flags, indicating a sustainable landscaping or land reclamation project.

Site soil characterisation is essential for assessing soil strength and stability before and after deep compaction. It guides engineers in designing effective compaction plans, selecting suitable techniques, and ensuring a solid foundation for construction. Comprehensive testing and analysis help achieve safer, long-lasting structures.

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