“Effective foundations are not just for buildings; they are the key to lasting success in every endeavor.”

piling

Systems used to increase soil bearing capacity or transfer structural loads to deep, stable layers.

  • Reinforced and Non-Reinforced Piles

Steel-reinforced or plain piles produced and applied according to BS EN 1536 and ASTM D1143 standards.

  • Mini Piles

Small-diameter piles used in restricted spaces or for light loads.

  • CFA (Continuous Flight Auger) Piles

Piles created by continuous auger drilling and filled with concrete.

  • Intersecting Piles

Overlapping piles used to create waterproof retaining walls.

  • Contiguous Piles

Closely spaced piles forming a retaining structure.

  • Secant Piles

Alternately spaced piles.

  • Underpinning Piles

Piles used to support the foundation.

  • Driven Piles

Piles driven into the ground using hammers or vibration.

“Diaphragm Wall: Superior Durability and Waterproofing for Deep Foundation Solutions”

Diaphragm Wall

Underground retaining structures made of high-strength concrete or steel panels.

  • Slurry Wall

Bentonite-supported diaphragm system for groundwater control.

  • Barette Type Diaphragms

Specially designed diaphragm panels.

  • Waterproofing for Deep Excavations

Controlling water ingress in foundation pits.

  • Deep Excavation Support Systems

Providing lateral support in deep excavations.

“Sheet Piles: Versatile and Reliable Solutions for Excavation, Soil Retention, and Water Control”

Sheet Pile

Sheet pile refers to thin, durable panels made of steel, concrete, or wood that are interlocked side by side to create a piled retaining wall system. It is commonly used in temporary or permanent underground structures to provide soil retention, waterproofing, and stability. Sheet pile systems are applied using various methods depending on soil conditions and project requirements.

  • Excavation Support:

Provides lateral support in excavation pits or deep foundations, ensuring the safety of surrounding structures.

  • Waterproofing:

Prevents water ingress into excavation areas, especially in water-saturated soils or below the groundwater table.

  • Coastal and River Structures:

Used for preventing soil erosion and supporting structures near harbors, wharves, and riverbanks.

  • Temporary Support:

Acts as a temporary barrier to maintain soil stability during construction phases.

“Jet Grouting, Grouting, and Anchorage: Advanced Techniques for Stabilizing Soils and Securing Structures”

Jet Grouting

In-situ soil improvement using high-pressure mixtures.

  • Jet-1 and Jet-2 Applications

Single or double fluid jet grouting techniques.

  • Turbo Jet Applications

High-efficiency jet grouting system.

  • Bottom Plug

Creating a watertight layer in deep excavations.

Grouting

Improving soil by injecting various materials (cement, chemicals).

  • High-Pressure Cement Grouting

Injecting cement mixtures into soil under high pressure.

  • Micro Grouting

Injection technique for small-scale areas.

  • Polyurethane and Epoxy Injections

Specialized chemical injections for repairing cracks in soil or structures.

Anchorage

Support systems used to stabilize structures.

  • Prestressed Anchor Systems

Anchors that work under tension.

  • Soil Nailing

Steel rods installed in the soil to enhance stability.

  • Bolt Fabrication

Production of rods used to reinforce rock or soil.

  • Dewatering

Removing water from work areas.

  • Well-point

Drainage system used to lower groundwater levels.

The solution is in Zemargeo

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