Hardscape

Installing Detectable Warning Plates

Square blocks as bollards protect an intersection with an H shape pattern of DWPs that cross the street

AMA, California, and ISO 23599 standards for attention-style tactile paving

Square blocks as bollards protect an intersection with an H shape pattern of DWPs that cross the street
Here, “attention” pavers with domes guides walkers across the street: often “guidance” tile with long runners would be used instead.

Detectable warning plates are a type of tactile paving, designed to be “read” by those using a cane for guidance. They are a form of universal design, for their contrasting color and textures act as communication for all users of a space. Tiles with truncated domes were invented in Japan in the late sixties by Seiichi Miyake, and installed for the first time in 1967, outside a school for the blind. They have since been adopted worldwide, with basic installation standards to ensure that they communicate the same message to users the world over.

Tactile paving standards: the ADA, California’s Building Standards Code, and ISO 23599

Tactile paving tiles were originally called “tenji” blocks in Japan. Tenji is the word for a Japanese Braille system, and detectable warning plates—and other tenji, like directional guidance tiles—are, like Braille, a language system designed to communicate non-visually.

Languages need some standardization to be clear to users, and attention getting detectable warning plates are no different. There are several standards that offer slightly different design guidelines. The three in most common use in North America are the Americans with Disabilities Act standards, the California Building Standards Code, and ISO 23599—an international standard that is followed in jurisdictions from Ontario, Canada to Sweden.

A narrow strip of offset grid DWPs are embedded in a marble floor outside the open doors of an older subway.
In some jurisdictions this strip of DWPs would need to be wider to comply with local building standards.

Detectable warning tile placement

All standards require detectable warning plates to be installed where there are dangerous changes in a walking surface. For example, they are a requirement at the edges of train, subway, and ferry platforms, where there might be a gap or hole that someone could fall into. Offset patterns are sometimes used in these locations. In offset tiles, the dots do not form a grid. Instead, each dome is centered on the gap between domes of the row above. Although offset patterns are often used before a gap, they are not a consistent marker. Sometimes a simple grid is used.

Attention-getting plates are also placed where there is a change in the grade of the surface, especially where there are vehicle hazards. For example, tactile pavers are placed at the top of steep ramps and on the landings. They are also used on curb cuts, at the end of the ramp, just before the street.

Width of plate

Distance to edge of transition

ADA

Minimum 24 in (610 mm) in direction of travel

Curb: Covering the bottom grade break unless break more than 5 ft back from curb, in which case on the landing before the curb.

California Building Standards

Platform: Minimum 24 in (610 mm) in direction of travel
Curb: Minimum 36 in (960 mm) in direction of travel
Vehicle hazard: Minimum 36 in (914 mm) in direction of travel

Set 6–8 in (152–203 mm) back from edge of transition.

ISO 23599 (Used in Ontario and other jurisdictions)

600–650 mm in direction of travel

Set 150–200 mm from the curb, platform, or ramp edge.

Width of plate

ADA

Minimum 24 in (610 mm) in direction of travel

California Building Standards

Platform: Minimum 24 in (610 mm) in direction of travel
Curb: Minimum 36 in (960 mm) in direction of travel
Vehicle hazard: Minimum 36 in (914 mm) in direction of travel

ISO 23599 (Used in Ontario and other jurisdictions)

600–650 mm in direction of travel

Distance to edge of transition

ADA

Curb: Covering the bottom grade break unless break more than 5 ft back from curb, in which case on the landing before the curb.

California Building Standards

Set 6–8 in (152–203 mm) back from edge of transition.

ISO 23599 (Used in Ontario and other jurisdictions)

Set 150–200 mm from the curb, platform, or ramp edge.

Domes in yellow on a black plate warn users of a gap at the subway
Truncated domes in an offset pattern in on a subway platform.

Dome size

Domes on detectable warning plates are known as “truncated domes” because they do not form a full round bubble. A little bit of flattening on the top makes them less slippery and dangerous to pedestrians.

Indoor truncated domes tend to be shorter than outdoor ones. Four millimeters is common for indoor spaces, and five for outdoors. However, different standards have slightly different appropriate ranges. The following table offers the specifications for domes in each of the three major North American standards.

Height

Base Diameter

Top Diameter

ADA

5 mm / 0.2 in

23–36 mm
0.9–1.4 in

50–60% of base diameter

California Building Standards

4.6–5.6 mm
0.18–0.22 in

23–23.4 mm
0.9–0.92 in

11.4–11.9 mm
0.45–0.47 in

ISO 23599 (Used in Ontario and other jurisdictions)

4–5 mm

Top diameter +
(10 ± 1) mm

12–25 mm

Height

ADA

5 mm / 0.2 in

California Building Standards

4.6–5.6 mm
0.18–0.22 in

ISO 23599 (Used in Ontario and other jurisdictions)

4–5 mm

Base Diameter

ADA

23–36 mm
0.9–1.4 in

California Building Standards

23–23.4 mm
0.9–0.92 in

ISO 23599 (Used in Ontario and other jurisdictions)

Top diameter +
(10 ± 1) mm

Top Diameter

ADA

50–60% of base diameter

California Building Standards

11.4–11.9 mm
0.45–0.47 in

ISO 23599 (Used in Ontario and other jurisdictions)

12–25 mm

Dome spacing

Dome spacing is an important design consideration for a few reasons.

The space between domes is important to catch and guide canes. Large gaps could read as directional indicators or cause a person to miss an upcoming drop. Gaps that are too small could read as a bumpy surface, if the cane did not dip sufficiently between domes.

Additionally, these are paving plates, designed to be walked on in all sorts of weather conditions. Those built into curb cuts and on ramps cannot be slippery. Appropriate spacing between domes helps increase the friction of the surface. Most plates also have roughening bumps on plate and domes to help prevent slips and falls.

Center-to-Center

Base-to-Base

ADA

41–61 mm
1.6–2.4 in

17 mm minimum
0.65 in minimum

California Building Standards

58–61 mm
2.3–2.4 in

N/A

ISO 23599 (Used in Ontario and other jurisdictions)

Depends on top diameter; check specification. e.g.
12 mm: 42–61 mm
25 mm: 55–70 mm

N/A

Center-to-Center

ADA

41–61 mm
1.6–2.4 in

California Building Standards

58–61 mm
2.3–2.4 in

ISO 23599 (Used in Ontario and other jurisdictions)

Depends on top diameter; check specification. e.g.
12 mm: 42–61 mm
25 mm: 55–70 mm

Base-to-Base

ADA

17 mm minimum
0.65 in minimum

California Building Standards

N/A

ISO 23599 (Used in Ontario and other jurisdictions)

N/A

Methods of installing detectable warning plates

Detectable warning plates come in a variety of materials and finishes depending on where they’re being installed.

Unpainted raw cast DWPs are commonly used outside, where they are usually laid into new concrete. This cast-in-place installation method is the most durable, as the concrete helps cure the plate into the hardscape. Cast iron stands up well to heavy traffic, snowplows, and other hard wear.

In cast-in-place installations, lifting springs are used to lower the tactile pavers into the concrete. A rubber mallet can be used to help level the plate. An edger can create a small gap for thermal expansion, and the surrounding concrete troweled and brushed flat. The detectable warning plate becomes solidly affixed as the concrete hardens.

Most heavy cast-iron plates are installed with this method. Lighter, thinner surface tiles made of other material (like fiberglass, resins, or plastic) might be installed instead with adhesive and bolt-through fasteners.

Bollards and DWPs line the side of a street near a bike lane
A grid pattern in cast iron detectable warning plates warn of vehicle hazards on the street.

Universal design and public spaces

Reliance Foundry offers ADA compliant cast iron detectable warning plates in a range of sizes. Choose interlocking tiles or those featuring individual placement. Radial plates can be used to help cover a flare or curve in a curb. Square and rectangular plates can be used together to customize size. All our plates are designed to be cast-in-place during installation.

All specifications require DWPs to be of a contrasting color to the pavers or concrete around it. Most often, our cast iron is shipped raw: over time, it develops a red-brown patina that offers a sharp contrast to lighter concrete and pavers. For applications with darker concrete, asphalt, or red-brown bricks or stones, finishing with a contrasting paint like safety yellow brings the DWPs into compliance with the major standards.

Detectable warning plates offer guidance to those with vision impairment, but they are useful for all users. A change in the walking surface queues pedestrians to slow down and pay attention; contrasting color offers a visual topographical clue. This universal design, creating safety and ease in the built environment, welcomes all people into public spaces.