CINTEC International has developed a new type of dissipative wall anchor that solves the issues of how to protect heritage buildings in some of the most earthquake-prone parts of the world.
This new product is an innovative dissipative anchor designed for use with Cintec’s proven wall anchor system.
The standard Cintec anchor system consists of a stainless steel anchor body encapsulated in a fabric sock. Diamond holes are drilled into the building and each anchor is placed in a hole. A specialized grout is pumped to the far end of the anchor, filling from back to front until the entire sock is inflated like a balloon. After the anchor has been inflated, the walls have been securely strengthened without affecting the outside appearance of the building.
For buildings subject to regular earthquake activity, there is a possibility of pull-out damage at the anchorage head. The new anchor solves this problem by allowing for small amounts of movement through a sliding mechanism.
The Cintec dissipative anchor consists of a set of stainless steel plates to which 4 bolts apply pressure, creating friction to an adjustable degree. There are built-in stops to restrict the sliding motion and connectors that link to Cintec’s standard anchor rods. The anchor allows a controlled and repairable drift for the walls, managing the amount of seismic energy fed into the structure and, therefore, minimizing damage to the building.
The development of this anchor resulted from Cintec’s involvement with the European NIKER project. In 2011, Cintec was chosen as the only British commercial company to actively participate in this project, the aim of which was to protect the artistic value of cultural heritage sites from earthquake-induced damage. Cintec has been working in collaboration with the University of Bath to create and test the dissipative anchor since then, and has now patented the finished product.