Cintec’s Fire Resistant Anchors

In view of the recent fires and loss of life in refurbished buildings, Cintec™ has been fully aware of the danger of fire and has always produced fire resistant remedial anchors and reinforcement. 

In the past few years, fire has been an increasing concern when buildings are being retrofitted, restored, or modernized. 

On June 14th, 2017, a fire broke out in the 24-storey Grenfell Tower, widely reported as the worst residential fire to take place in the U.K since the Second World War, due to failures by design.

As concerns over fire safety spread through the country, Prime Minister Theresa May ordered a public inquiry. 

As stated in the final report of the review of building regulations and fire safety, England is by no means alone in needing to improve building safety, as building regulations are a global concern. 

Under the terms of the EC Construction Products Directive, resistance to fire is one of the essential requirements for which performance tests are required. 

In Europe, thin-joint mortars have become popular, thus there are a number of situations where fixings are made using organic polymers as either the tie body, or in the form of resin glues. 

Such ties are not inherently fire resistant and could fail and shorten the life of a cavity wall in a fire, or lead to the collapse of cladding resulting in danger to escaping occupants and fire fighters. 

Passing the Tests

As a leader in structural preservation, Cintec has always been an advocate for the restoration of safe buildings through fire-resistant anchors, as long ago as 1993 fire tests were carried out by the internationally recognized Building Research Establishment in accordance with BS476 (1), ISO (2), and CEN (3). 

The fire rig was designed for use in the measurement of the performance of Cintec’s anchors in a fire situation while subjected to a mechanical load which might be a result of wind suction of fire-induced thermal movement.

Cintec’s remedial anchors survived a two-hour test without failure of any of the samples. 

Every sample reached several hundred degrees in the part of the anchor nearest to the fire face.  This indicates the anchor system can be recommended for repair work to buildings requiring a fire rating of up to two hours.

Fire at Fullers Brewery

Cintec Anchors were later – unintentionally – put to the test at the Fullers Brewery in London. 

The Cintec anchor system had been used extensively to repair and restore the Brewery’s facade.  A fierce fire followed, destroying large sections of the building. 

Despite the brickwork being subjected to extremely high temperatures, tests revealed that the cementitious Cintec anchors did not fail, performing to their original design.

They retained their integrity and could be reused for the repair work.  If the anchors were an epoxy or resin type, they would have melted, releasing potentially dangerous fumes in the process and would have been easily pulled out, allowing the wall to collapse. 

One could say that the Cintec Anchors having survived the fire are in fact fire proof. 

In New York City, according to the NYC Buildings Department, adhesive anchors are not permitted to support fire-resistance rated construction unless the use of such anchors meets the conditions set forth in the acceptance criteria.  Post-installed anchors in masonry must be designed in accordance with the NYC Construction Codes, describing the masonry substrate type and condition, as well as proof of pull tests.

Well-known and world-renowned, New York-based Howard L. Zimmerman Architects initially had some concerns about the lack of fire ratings for resin-based anchor systems in high rise apartments near NYC’s Central Park.

After reviewing Fire Test Data and performance tests on a severely damaged building after a fire, it was determined that the Cintec System was the best anchor to meet the project engineers’ concerns. 

Cintec anchors are the cementitious fire-resistant alternative to resin anchors.  Since Cintec’s anchors are based on reliable restoration materials, cementitious grout and stainless steel, they easily provided the elusive fire rating typically absent in other systems.

Cintec’s Fire Resistant Anchors

About Cintec™ International

Cintec International is a globally recognized leader in engineering of structural masonry reinforcement and anchoring systems.  Merging creative thinking with solid engineering principles, our reinforcement anchoring systems have solved thousands of client problems worldwide.  Our innovative anchors provide a seamless solution for historic restorations, all masonry structures and other important buildings worldwide.

But our specialty doesn’t stop with the preservation of historical structures.  Cintec International is also helping people survive in areas of conflict with our Explosion Blast Protection Mitigation solutions.


(1) BS476: Part 20: 1987, Fire tests on building materials & structures. British Standards Institute, London, 1987

(2) ISO/DIS 834 – Fire resistance tests – Elements of building construction. Part 1: General requirements for fire resistance testing; Part 2: Fire resistance testing of non-loadbearing elements; Part 3: Fire resistance testing of loadbearing elements

(3) CEN prENYYY1, prENYYY2, prENYYY3 (Renumbered equivalents of ISO drafts)