Our Services

Our Services

Ground Improvement

Ground improvement refers to a set of engineering techniques used to enhance the properties of soil or rock — such as strength, stiffness, density, or permeability — to make it more suitable for construction.

It’s a key part of geotechnical engineering, especially when natural soil conditions are weak, compressible, or unstable.

Ground improvement modifies the engineering behavior of in-situ soils to:

  • Increase bearing capacity
  • Reduce settlement
  • Improve stability
  • Control groundwater or permeability
  • Mitigate liquefaction potential
  • Allow use of marginal soils for construction

SERVICES WE PROVIDE

A.Grouting Techniques

Injecting materials into soil or rock to fill voids and increase strength.

Our Services

Earth Retention

Earth retention systems are engineered structures that support soil laterally so that it can be maintained at different levels on either side — typically to prevent soil collapse or movement during or after excavation, known as support of excavation (SOE).

They are used whenever vertical or near-vertical cuts are made in soil — for basements, retaining walls, bridge abutments, tunnels, or deep foundation pits.

Systems such as soldier pile walls, sheet piles, secant or diaphragm walls and soil nailing are selected based on depth, soil conditions, groundwater, and project type.
In drilling and piling projects, they work hand-in-hand with anchors, jet grouting, and deep foundations to provide safety, stability, and durability.

Services We Provide

  1. Soldier Pile and Lagging Wall
  • Construction: Steel H-piles (soldier piles) drilled or driven at regular spacing; wood, steel, or concrete lagging placed between them as excavation proceeds.
  • Support: Can be cantilevered (shallow) or anchored/braced (deep).
  • Applications: Urban excavations, basements, shoring near property lines.
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Deep Foundations

Deep foundations are structural elements that transfer building or structure loads to deeper, more competent soil or rock layers when near-surface soils are too weak or compressible to support them.

They’re used for heavy structurespoor ground conditionswaterfront construction, and large dynamic loads (like bridges or towers).

They develop strength from:

  • End bearing — load transfer at the base into hard strata or rock
  • Skin friction — load transfer along the surface between foundation and soil
  • Or a combination of both.

Services We Provide

  1. Pile Foundations

Slender, column-like members (steel, concrete, or timber) driven, drilled, or screwed into the ground.

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