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) revolutionizes 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, addressing heterogeneities and enhancing load-bearing capacity. Ideal for mining, dredging, and large-scale earthworks, HEIC reduces project timelines, lowers costs, and promotes sustainability. Discover how Landpac’s innovative solutions deliver efficient and environmentally responsible results for heavy-duty projects.

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.

Ground improvement is a fundamental aspect of civil and geotechnical engineering, crucial for ensuring the stability and integrity of construction projects such as roads, buildings, bridges, or residential areas.

Intelligent Compaction Measurement (ICM)

A green tractor with large wheels works on a vast, reddish-brown dirt field under a clear blue sky. Vegetation and trees are visible in the distance.

Ground improvement is a fundamental aspect of civil and geotechnical engineering, crucial for ensuring the stability and integrity of construction projects such as roads, buildings, bridges, or residential areas.

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.

Ground improvement is a fundamental aspect of civil and geotechnical engineering, crucial for ensuring the stability and integrity of construction projects such as roads, buildings, bridges, or residential areas.