RT60 Acoustics & Sabine Formula Guide
Understanding reverberation time, NRC values, and acoustical treatment specification
What is RT60?
RT60 (Reverberation Time 60) is the time it takes for sound to decay by 60 decibels after the source stops. It's the primary metric for describing how "live" or "dead" a room sounds.
- Short RT60 (< 0.5s) — "Dead" room, very controlled sound. Ideal for recording studios and critical listening spaces.
- Medium RT60 (0.5-1.0s) — Balanced acoustics. Good for speech clarity in offices, classrooms, and conference rooms.
- Long RT60 (> 1.0s) — "Live" room with noticeable reverberation. Common in gymnasiums, lobbies, and worship spaces.
60 dB represents approximately the difference between typical speech levels and the threshold of hearing. When sound decays by 60 dB, it's effectively inaudible.
The Sabine Formula
Developed by Wallace Clement Sabine in 1898, this formula remains the foundation of architectural acoustics:
RT60 = 0.049 × V / A
Where V = volume in cubic feet, A = total absorption in Sabins
The constant 0.049 applies when using imperial units (cubic feet). For metric (cubic meters), use 0.161.
Calculating Sabins
Absorption (Sabins) is calculated by multiplying each surface area by its NRC value:
Sabins = Surface Area (SF) × NRC
Example: 1,200 SF ceiling with ACT (NRC 0.70) = 1,200 × 0.70 = 840 Sabins
Total room absorption is the sum of Sabins from all surfaces (floor, ceiling, walls) plus any furniture, people, or other absorptive elements.
Example Calculation
Consider a 30' × 40' × 10' conference room:
| Surface | Area (SF) | Material | NRC | Sabins |
|---|---|---|---|---|
| Floor | 1,200 | Carpet (heavy) | 0.55 | 660 |
| Ceiling | 1,200 | ACT Standard | 0.70 | 840 |
| Walls | 1,400 | Drywall (painted) | 0.05 | 70 |
| Total Absorption: | 1,570 | |||
Volume = 30 × 40 × 10 = 12,000 CF
RT60 = 0.049 × 12,000 / 1,570 = 0.37 seconds
This room is well below the 0.5s target for conference rooms, providing excellent speech clarity.
Target RT60 by Room Type
Different spaces have different acoustical requirements based on their function:
| Room Type | Target RT60 | Priority | Notes |
|---|---|---|---|
| Recording Studio | 0.3 - 0.5s | Control | Minimize reflections for clean recordings |
| Conference Room | 0.4 - 0.6s | Speech clarity | Clear communication, videoconferencing |
| Open Office | 0.5 - 0.6s | Privacy | Reduce noise propagation between workstations |
| Classroom | 0.6 - 0.7s | Speech clarity | ANSI S12.60 standard for learning environments |
| Restaurant | 0.6 - 0.9s | Ambiance | Lively feel without excessive noise buildup |
| Worship Space | 0.6 - 0.8s | Varies | Contemporary services; traditional may prefer longer |
| Auditorium | 0.8 - 1.2s | Speech + Music | Balance for spoken word; concert halls go 1.5-2.0s |
| Gymnasium | 1.5 - 2.0s | Reasonable | Hard surfaces and high volumes make treatment challenging |
For general commercial spaces prioritizing speech intelligibility, target 0.6 seconds or less. You can always add more absorption later, but removing it is expensive.
Understanding NRC
NRC (Noise Reduction Coefficient) is a single-number rating representing a material's average absorption across four frequencies: 250 Hz, 500 Hz, 1000 Hz, and 2000 Hz.
- NRC 0.00 — Perfectly reflective (no absorption)
- NRC 0.50 — Absorbs half the sound energy that hits it
- NRC 1.00 — Absorbs all sound energy (in theory)
- NRC > 1.00 — Possible due to edge effects and diffraction (common with baffles)
ASTM C423 Testing
Manufacturers determine NRC through standardized testing per ASTM C423. Results depend heavily on mounting method:
- Type A (direct mount) — Material adhered directly to substrate. Lower NRC.
- Type E-400 (16" air gap) — Simulates plenum mounting. Higher NRC, especially at low frequencies.
The NRC values in our calculator use Type A mounting for direct-mount products and Type E-400 for ceiling tiles in typical grid installations.
Floor Material NRC Values
| Material | NRC | Notes |
|---|---|---|
| Concrete / Terrazzo | 0.02 | Polished surfaces are highly reflective |
| Hardwood / LVT | 0.05 | Slightly better than concrete |
| Linoleum / VCT | 0.10 | Resilient flooring provides minimal absorption |
| Carpet (thin, no pad) | 0.30 | Commercial loop carpet, direct glue |
| Carpet (heavy with pad) | 0.55 | Cut pile with cushion backing |
Ceiling Material NRC Values
The following values are from manufacturer-published test data (ASTM C423):
Acoustical Ceiling Tiles (ACT)
| Product | Manufacturer | NRC | Notes |
|---|---|---|---|
| Fine Fissured | Armstrong | 0.55 | Economy mineral fiber |
| Mars | USG | 0.70 | Standard commercial |
| Artic | Rockfon | 0.75 | Stone wool, standard |
| Ultima | Armstrong | 0.85 | Premium performance |
| Mars High NRC | USG | 0.90 | Enhanced absorption |
| Sonar | Rockfon | 0.95 | High-performance stone wool |
Fiberglass Panels & Specialty Products
| Product | NRC | Notes |
|---|---|---|
| Drywall (painted) | 0.05 | Hard ceiling, minimal absorption |
| 1" Fiberglass Panel (direct mount) | 0.75 | OC 703 or equivalent, wall-mounted |
| 1" Panel with air gap | 0.85 - 0.90 | 2-4" standoff improves low-frequency absorption |
| 2" Fiberglass Panel | 1.00 | OC 703 2", fabric-wrapped |
| Clouds / Baffles (2") | 0.90 - 1.05 | Free-hanging, both sides exposed |
Mounting panels with a 2-4" air gap behind them significantly improves absorption at 250 Hz and below, where thin materials typically struggle. This is why ceiling tiles in a grid (with plenum space) perform better than the same material direct-mounted.
Wall Material NRC Values
| Material | NRC | Notes |
|---|---|---|
| Concrete / CMU (painted) | 0.02 | Sealed masonry is highly reflective |
| Drywall (painted) | 0.05 | Standard wall construction |
| Drywall + Fabric | 0.10 | Decorative fabric over gypsum |
| Glass / Windows | 0.18 | Single-pane; double-pane is lower |
| Acoustical Felt 9mm | 0.30 | Decorative felt panels |
| Acoustical Felt 12mm | 0.45 | Thicker felt, improved absorption |
| 1" Fiberglass Panel (direct) | 0.75 | Fabric-wrapped, wall-mounted |
| 1" Panel with air gap | 0.90 | Standoff mounting |
| 2" Fiberglass Panel | 1.00 | Maximum absorption |
Using the Calculator
The RT60 Calculator guides you through the process:
Step 1: Enter Room Dimensions
For rectangular rooms, enter Length × Width × Height. For complex shapes (L-shaped, T-shaped), click "Use Complex Shape" and enter floor area and perimeter directly. Use the Areas tool in the utility drawer to calculate complex shapes.
Step 2: Assign Surface Treatments
For each surface (Floor, Ceiling, Walls), add treatments with their areas:
- The "Total" shows the calculated surface area
- The "Assigned" shows how much you've allocated to treatments
- Green = fully assigned, Red = over-assigned
You can add multiple treatments per surface. For example, a ceiling might have 800 SF of ACT and 400 SF of drywall soffits.
Step 3: Select Room Type
Choose a room type preset to set the target RT60. The calculator shows whether your current configuration meets the target.
Step 4: Review Recommendations
If current RT60 exceeds the target, the calculator shows how many Sabins of additional absorption are needed and translates that to square feet of treatment at various NRC ratings.
Have a specific product with manufacturer test data? Select "Custom..." from any material dropdown to enter the exact NRC and product name. This appears in your exported results.
Treatment Selection Tips
Ceiling First
The ceiling is usually the largest unobstructed surface and the easiest to treat. Start here. A good ACT ceiling (NRC 0.70+) often provides enough absorption on its own for typical commercial spaces.
Consider the Floor
Carpet with pad (NRC 0.55) provides significant absorption. If the floor is hard surface (concrete, tile, LVT), you'll need more ceiling or wall treatment to compensate.
Walls for Fine-Tuning
Wall panels are expensive per Sabin compared to ceiling treatment. Use them strategically:
- Conference rooms: Panels on the wall opposite the display/camera
- Open offices: Panels on columns and end walls
- Gymnasiums: Upper wall areas where they won't be damaged
Don't Over-Treat
A room that's too dead feels uncomfortable and fatiguing. If your RT60 is already at or below target, stop adding absorption. Some reflection is natural and helps occupants orient themselves spatially.
Baffles and Clouds
When ceiling plenum space is unavailable (exposed structure) or you need maximum absorption, hanging baffles or acoustic clouds are effective. Because both sides are exposed to sound, they can achieve NRC > 1.00.
Need Help?
For complex spaces, multi-room projects, or critical listening environments, consider consulting an acoustical engineer. The calculator provides estimates based on the Sabine formula, but real-world results depend on room geometry, furnishings, and frequency-specific requirements that simplified calculations don't capture.
Questions about the calculator? Send us a message.