Anchoring a rubber speed bump correctly comes down to four things: match the anchor type to the substrate, drill to the manufacturer's depth, apply epoxy on concrete substrates, and torque bolts to spec in a star pattern. Concrete uses 3/8-inch by 4-inch sleeve anchors with two-part epoxy. Asphalt uses 4 to 6-inch spike anchors with hot-pour epoxy. Manufacturer torque specs for rubber bumps usually run 25 to 50 foot-pounds. The ITE Traffic Calming Manual flags anchor failure as the most common cause of bump displacement under traffic.
Below: anchor selection, hardware spec, drilling and torque procedure, and how to diagnose anchor failure on existing installs.
What Anchor Type Should You Use?
Anchor selection depends entirely on the substrate the bump sits on:
| Substrate | Anchor Type | Hole Depth | Hardware Cost (Per Anchor) |
|---|---|---|---|
| Concrete | 3/8-inch concrete sleeve anchor with two-part epoxy | 2.5 to 3 inches | $5 to $12 |
| Asphalt | 1/2-inch spike anchor with hot-pour epoxy | 4 to 6 inches | $4 to $9 |
| Concrete-overlaid asphalt | Concrete sleeve, drilled past the asphalt layer | 3.5 to 4 inches | $6 to $14 |
| Brick paver | Concrete sleeve into the underlying base | varies by base depth | $7 to $15 |
How Many Anchor Points Per Bump?
Manufacturer spec controls. Typical anchor counts:
- 4 to 6-foot rubber section: 4 anchor points (2 per side)
- 10-foot rubber section: 6 anchor points (3 per side)
- Heavy-duty 10-foot rubber section: 8 anchor points (4 per side)
- 12-foot rubber section: 8 anchor points
Anchor pattern is symmetrical across the bump's centerline so loads distribute evenly. Manufacturer installation sheets show the exact anchor pattern with measurements; do not improvise.
What Hardware Comes in a Kit?
A standard rubber speed bump anchor kit for a 10-foot section includes:
- 6 anchor sleeves (concrete substrate) or 6 spike anchors (asphalt substrate)
- 6 bolts matched to the anchor (typically 3/8-inch grade 5 hardened steel)
- 6 flat washers
- 6 lock washers
- 2 epoxy tubes (concrete substrate only)
- Torque-spec sheet from the manufacturer
Total kit cost runs $25 to $60 depending on substrate and grade. Heavy-duty kits with stainless hardware run $40 to $90.
How Do You Drill the Anchor Holes?
Step 1 — Mark hole positions
Place the rubber section on the pre-marked centerline. Use chalk through each pre-drilled bump hole to mark hole positions on the pavement. Verify each marked spot is at least 4 inches from a pavement crack or edge.
Step 2 — Select the bit
Concrete substrate uses 3/8-inch masonry bit rated for hammer drill. Asphalt substrate uses a spike-driver or larger masonry bit sized to the spike anchor. Match bit diameter to the manufacturer's hole-size spec.
Step 3 — Drill perpendicular
Hold the drill perpendicular to the pavement surface. A canted hole leaves the anchor sleeve cocked, which fails under traffic. Drill at full speed; do not rock the drill.
Step 4 — Drill to depth
Concrete: 2.5 to 3 inches. Asphalt: 4 to 6 inches. Use a depth gauge or marker tape on the bit to ensure consistent depth.
Step 5 — Clean the hole
Vacuum or blow concrete dust from each hole before inserting the anchor. Dust in the hole prevents epoxy adhesion on concrete substrates and prevents proper seating on asphalt.
How Do You Set the Anchor?
Concrete substrate procedure
- Inject two-part epoxy to roughly 75 percent of hole depth using the epoxy gun.
- Insert the concrete sleeve anchor immediately. Excess epoxy displaces as the anchor seats.
- Wipe excess epoxy from the surface.
- Allow 30 to 60 minutes cure before applying torque.
Asphalt substrate procedure
- Drive the spike anchor into the drilled hole using a spike-driver.
- Apply hot-pour epoxy around the anchor head to seal against pavement.
- Allow 5 to 10 minutes for hot-pour to set.
- Apply torque immediately (asphalt anchors do not need cure time like concrete epoxy).
How Should You Torque the Bolts?
Manufacturer spec is the only correct torque value. Typical specs:
| Hardware Grade | Torque Spec |
|---|---|
| 3/8-inch grade 5 | 25 to 35 ft-lb |
| 3/8-inch grade 8 | 35 to 50 ft-lb |
| 1/2-inch grade 5 | 45 to 60 ft-lb |
| 1/2-inch grade 8 | 55 to 75 ft-lb |
Over-torquing strips concrete sleeves, which forces re-drilling and re-anchoring at a new spot. Under-torquing allows the bump to lift under traffic, which fails predictably within weeks.
For the broader install procedure that wraps anchor work, see how to install rubber speed bumps.
How Do You Diagnose Anchor Failure on an Existing Bump?
Three signs indicate anchor failure on an existing rubber bump:
- The bump rocks under foot pressure. Press down on each corner. Movement greater than 1/8 inch indicates loose anchor.
- Rust streaks at anchor points. Bolts loosening allow water intrusion at the anchor head, producing visible rust.
- Visible bolt-head movement under tire load. Watch the bump as a vehicle passes. Anchor heads that lift indicate full anchor failure.
Anchor failure repair: remove the bolt, drill a new hole 3 to 4 inches off the failed location, set a new anchor, re-bolt. Do not reuse the failed anchor location — the original hole is now oversized.
On a 14,000-square-foot Salem retail center we restriped in March 2026, we replaced four rubber speed bumps that had been installed in late 2023 by an unlicensed crew. Two had failed at the anchor points — bolts had been hand-tightened rather than torqued to spec. Replacement and re-anchor took our crew about 6 hours total. Proper torque at install would have prevented the failure.
What Anchor Hardware Is Right for Oregon Climate?
Oregon's I-5 corridor sees roughly 30 to 60 freeze-thaw cycles per winter per Oregon Climate Service (climate.oregonstate.edu). Anchor hardware in Oregon:
- Galvanized steel: acceptable for low-traffic residential bumps
- Stainless steel: recommended for commercial parking lots and coastal sites
- Epoxy-coated grade 8: recommended for heavy-duty distribution-center bumps
Coastal-county sites (Lincoln, Tillamook, Curry, Coos) face additional saltwater corrosion risk. Stainless hardware is the only acceptable spec on those sites. Inland Willamette Valley sites can run galvanized for residential and stainless for commercial.
For installation pricing including hardware, see our speed bump installation cost guide — it breaks down line items in full. For Oregon paving-and-marking pricing context, see asphalt paving cost Oregon. For Portland Metro commercial install context, see Speed Bumps in Portland Metro.
When Should You Hire a Contractor for Anchoring Work?
Hire a contractor when:
- The substrate is unfamiliar (overlaid asphalt-on-concrete, brick paver base, etc.)
- More than 4 bumps need anchoring (efficient mobilization)
- The site requires Oregon prevailing-wage labor (Oregon BOLI, oregon.gov/boli)
- Existing anchor failures need diagnostic work before re-anchoring
- The site has ADA pathway proximity that affects anchor placement
Or Hire Cojo's Installation Crew
Anchor work is straightforward when done right and expensive to redo when done wrong. Cojo anchors commercial rubber speed bumps across the Oregon I-5 corridor with torque-spec records, hardware-grade documentation, and substrate-matched anchor selection. Hire Cojo's installation crew for your next project.