To meet the seismic requirements, the civil engineers of the winning project "kala" planned three seismic walls in each direction. The S&P specialists worked with the engineers to reinforce these masonry partition walls over three to four floors. The proposed reinforcement system has been tested in several research projects and used on various buildings around the world over the last decade to provide additional resistance to horizontal forces.

Absorb and anchor tensile forces

Since the earthquake resistance of masonry is very low, laminates made of high-strength carbon fibres (S&P C-Laminate) were added to the existing masonry. They were installed diagonally and vertically to absorb the forces that occur in the event of an earthquake. With the support of S&P experts, the project engineer was able to dimension steel anchor plates that anchor the nodes as well as transfer the forces into the floor slab.
The system proposed by S&P can be summarised as follows:

• Preparation of the substrate
• Application of a levelling layer consisting of the mortar S&P Tecnogrout-K
• Application of the glass fibre fabric S&P G-Sheet with the epoxy S&P Resicem HP on the entire wall surface
• Installation of the carbon laminates S&P C-Laminate with S&P Resin 220 HP

The aesthetics remain intact

This reinforcement measure increases the ductility, the deformation resistance, as well as the shear and bending strength of the existing masonry walls. The S&P system used does not affect the aesthetics of the structure and preserves the façade of this iconic building. The reinforcement has a low weight as well as a minimal layer structure and is easy to apply. In addition, this repair option allowed the building to be used continuously during the construction work.