Our Services

What We Do

Post Tensioning Slabs

Soil Nailing

Ground Anchoring

Post Tensioning Slabs

Post tension slab is a combination of conventional slab reinforcement and additional protruding high-strength steel tendons, which are consequently subjected to tension after the concrete has set. This hybridisation helps achieve the formation of a much thinner slab with a longer span devoid of any column-free spaces.

Post tension slab is a combination of conventional slab reinforcement and additional protruding high-strength steel tendons, which are consequently subjected to tension after the concrete has set. This hybridisation helps achieve the formation of a much thinner slab with a longer span devoid of any column-free spaces.

Methodology:

Shuttering of Slabs & Beams

Slab Bottom Reinforcement

Slab Bottom Reinforcement

Laying of Tendos & Placing of Chairs

Pushing Of Tendons

Slab Top Reinforcement

Slab Bottom Reinforcement

Concreting Of Slab

Stressing of Tendons

Grouting Of Tendons

Advantages:

  • Architectural Benefits
  • Commercial Spaces
  • Reduces Dead load
  • Structural Durability
  • Popularity

Soil Nailing

The soil nailing technique is used to reinforce soil to make it more stable. Added to that, it is used for slopes, excavations, retaining walls, etc. to make it more stable. This article will shed light on the soil nailing technique, its types, and its applications.

Applications:

  • Stabilization of existing retaining wall
  • Excavating retaining structures in urban areas for high-rise buildings and underground facilities.
  • Landslide redemption
  • Stabilization of highway and roadway embankments and cut slopes
  • Tunnel portals in unstable and steep stratified slopes
  • Construction and retrofitting bridge abutments
  • Steep cutting stabilizations
  • Stabilizing of over steep existing embankments
  • Provide long term stability to existing concrete structures without demolition and rebuilding costs
  • Lastly, temporary excavation shoring

Ground Anchoring

A ground anchor generally consists of a steel tendon (bar or strands) that is grouted into a pre-drilled hole in rock or soil.  After the grout cures, the tendon is pulled into tension against a plate or block and is locked in place to resist movement of a retaining structure. 

Advantages:

  • Secure surfaces in mines
  • Holds buildings against lift
  • Stabilization of slopes
  • Bases for guy toggles
  • Supports for stairs
  • Secure caisson bottom
  • Provide tiebacks for bridges
  • Increase the stability of dams
  • Tension load tests