Share on:

Request A Quote

Tactile Single Domes & Bars

Attention Tactile

Tactile Single Domes & Bars

From: $2.64

Accessibility legislation requires the mandatory installation of tactile walking surface indicators for all floors. For situations in which maintaining the visually appealing aesthetics of floors is a priority, the tile solution would not be as appropriate as installing the single tactile domes or bars solutions, making them the perfect choice to guide and assist the visually impaired to safety. Our Accessibility Codes Compliant Tactile Solutions include Stainless Steel Truncated Domes and wayfinding bars, which are drilled and adhered into the ground. Our solutions are available in different materials and colors, which make them aesthetically pleasing while complying with contrast requirements.

Our solutions include stainless steel, brass, and aluminum, which are all highly durable. Our attention Tactile Warning Plate and wayfinding bars are resistant to heavy traffic abuse and maintenance machinery.

Here are some of the features of tactile single domes & bars:

  • Optimum anti-slip design
  • Resistance to heavy traffic abuse
  • Availability in different material
  • 5-year manufacturer’s warranty
Read More Read less
Stainless Steel Domes Drilled To The Floor

Advantage One Individual Stainless Steel Attention Domes are designed to for interior applications enhancing the look of your project while complying with Canadian accessibility code requirements. The stainless steel individual attention domes are composed of a slip resistant micro texture and are available in different sizes and colours. The Advantage one individual attention domes are drilled and adhered directly into the ground. The Advantage One Individual Attention Dome Tactile Walking Surface Indicators (TWSI), provide a reliable solution for interior projects in all spaces meeting Canadian Accessibility regulations, ensuring safety for all pedestrians including the visually impaired, acting as warning indicators and path marking indicators preventing slips, falls and assisted guidance on your desired path. 


Advantage One Individual Attention Domes for the following interior applications and many more:

• Revolving Door Approaches 
• Wheelchair Ramps 
• Parking Areas 
• Top of Stair Landings 
• Turnstile and Gate Access 
• Escalator Approaches 
• Transit Platforms 
• Multi-Modal Transit Stations

Read More Read less

Stainless Steel Bars Drilled to the Floor

Advantage One offers high-quality stainless steel wayfinding bars designed specifically for interior spaces. These bars adhere directly to the floor to provide critical tactile guidance while seamlessly blending into your environment.

Constructed from durable stainless steel with a slip-resistant texture, the Advantage One bars meet Canadian accessibility regulations for interior applications. They act as an important orientation tool for visually impaired individuals, providing warnings and directional assistance to prevent slips, trips, and falls.

The Advantage One wayfinding bars promote safety and accessibility across interior spaces. Their low-profile aesthetic allows the bars to integrate discretely while still being detected by canes and feet.

Advantage One Individual Wayfinding Bars for the following interior applications and many more:

• Revolving Door Approaches 
• Wheelchair Ramps 
• Parking Areas 
• Top of Stair Landings 
• Turnstile and Gate Access 
• Escalator Approaches 
• Transit Platforms 
• Multi-Modal Transit Stations

Read More Read less

Stainless Steel Domes Self Adhesive

Advantage One® Surface Applied Tactile Walking
Surface Indicators are designed to provide an accessibility
solution in many interior applications. In particular, Surface
Applied can be used on the floor where TWSI are required;
but the floor cannot be drilled into to secure Advantage One TWSI.
Advantage One Surface® TWSI are stainless steel domes with a rubber
base that adheres to the floor with a self-adhering permanent tape.
Like anchored Advantage One TWSI, Advantage One Surface Applied
are machined from a solid piece of 316L Marine Grade Stainless Steel
and are aesthetically pleasing, strong, and durable. They incorporate
an integral texture in the stainless steel for permanent slip resistance.
Advantage One Surface have undergone a series of rigorous tests to
ensure they meet the standards specified in Provincial and National
Building Codes.

Read More Read less

Stainless Steel Bars Self Adhesive

Advantage One® Surface Applied Tactile Walking
Surface Indicators are designed to provide an accessibility
solution in many interior applications. In particular, Surface
Applied can be used on the floor where TWSI are required;
but the floor cannot be drilled into to secure Advantage One TWSI.
Advantage One Surface® TWSI are stainless steel wayfinding bars
with a rubber base that adheres to the floor with a self-adhering
permanent tape. Like anchored Advantage One TWSI, Advantage
One Surface Applied are machined from a solid piece of 316L Marine
Grade Stainless Steel and are aesthetically pleasing, strong, and
durable. They incorporate an integral texture in the stainless steel for
permanent slip resistance. Advantage One Surface have undergone a
series of rigorous tests to ensure they meet the standards specified
in Provincial and National Building Codes. Advantage One® Surface
Applied is specifically designed for use when drilling holes for
the anchored version of Advantage One Bars is inappropriate or
impossible. Each 4-bars box comes with a clear plastic template to
use when installing in the prescribed bar pattern. Installation requires
using a thin blade tool, like a pocketknife, to ensure a clean lift and
peel off the tape cover at the base of each bar. Installation on the
surface of the floor should occur right after the tape cover is removed
to ensure maximum adhesion. The permanent tape adheres well to
most floor surfaces: wood, concrete, ceramic tile, stone, and metal.
However, the life span of the adhesion will be limited if automatic
floor cleaners, blows, or shovels are used on them.

Read More Read less