The site is surveyed and marked out before excavation begins.

Trees, vegetation, and other obstructions are cleared to make the site accessible for excavation equipment.

Soil and rock are removed from the site and disposed of. This involves the use of specialized equipment such as excavators & dump trucks, to transport the soil and rock away from the site.

These cylindrical support members are driven into the ground and transfer the load of the structure into it.

Typically made of concrete & steel, piles are driven into the ground to provide stability and support for the structure using specialized equipment.

A hydraulic rock splitter is a heavy-duty machine tool used to crack large rock formations.

The splitter operates using high-pressure hydraulic fluid generated by a powerful hydraulic pump.

The arms of the splitter apply force to specific areas of the rock, causing it to crack along predetermined lines.

An innovative construction technique that offers a practical solution for piling in difficult soil conditions or areas with limited access.

Involves the use of small-diameter piles, typically between 200mm and 300mm in diameter & are reinforced with steel bars.

Used to cut through hard rocks such as granite & basalt.

A series of interconnected diamond segments are mounted on a metal chain. This chain is inserted into the cavity created by the drill bit. The chain is powered by a hydraulic motor.

Slow and controlled cutting process produces precise cuts which prevents the risk of damage to the rock.

Holes drilled into the rock face and surrounding soil accommodate rock anchors, these are tightened to secure the site.

Grouting fills gaps between the anchor and the rock face, transferring the load from the anchor to the surrounding rock and provides a solid connection.

Continuous monitoring of rock anchors ensures long-term site stability through periodic inspections and testing for proper function.