Concrete Resurfacing
Concrete resurfacing is a process that involves applying a thin layer of new concrete over an existing concrete surface. This technique is used to repair and enhance the appearance of worn or damaged concrete, providing a fresh and durable finish. Concrete resurfacing is a cost-effective way to revitalize existing concrete surfaces, whether they are driveways, patios, sidewalks, or other areas. It can extend the life of the concrete and improve its appearance without the need for complete replacement.
Structural repair
Structural repairs involve fixing and reinforcing damaged or deteriorated areas of a structure, typically made from materials such as concrete, masonry or steel. These repairs are essential for maintaining the structural integrity of buildings, bridges, dams, and other infrastructure. Structural repairs are crucial for extending the lifespan of infrastructure and ensuring the safety and stability of buildings and other structures. The success of these repairs depends on thorough assessment, proper material selection, and meticulous application techniques.
Activities undertaken:
- Structural Audit
- Structural Integrity assessment.
- Concrete repair
- Steel structure repair
- Masonry repair
- Protective coating.
Structural strengthening
Structural strengthening is done for existing concrete or steel structures to increase the load capacity of beams, columns, walls, and/or slabs and to support additional live or dead loads not included in the original design. To relieve stresses generated by design or construction errors or for the restoration of the original load capacity of damaged structural elements.
Activities undertaken:
- Structural Audit
- Structural Integrity assessment.
- CFRP (Composite reinforcements)
- Micro Concrete
- Steel Jacketing
- Wet/dry shotcrete
- Structural Modification and Extension (Horizontal and vertical)
Cathodic Protection system
Cathodic protection is a corrosion control technique used to prevent the deterioration of metal structures or reinforcement by making the metal a cathode within an electrochemical cell. This method is particularly effective for protecting buried or submerged structures, such as pipelines, storage tanks, and marine structures, from corrosion. There are two main types of cathodic protection systems: galvanic (or sacrificial) anode systems and impressed current systems.
Cathodic protection systems are a crucial tool in preventing corrosion-related damage to metal structures, especially in harsh environments. Proper design, installation, and ongoing monitoring are essential for the effectiveness and longevity of the cathodic protection system.
- Sacrificial Anode
- Impressed current systems.