4" RMC Conduit Fill Chart
How many wires fit in 4" RMC (Rigid Metal Conduit (galvanized steel)). Maximum conductor counts per AWG at the NEC 2023 40% fill cap for three or more conductors.
MAXIMUM CONDUCTORS BY WIRE GAUGE
40% fill (3+ conductors per NEC 2023 Ch.9 Table 1). 4" RMC interior area = 12.8820 in².
| AWG | THHN / THWN-2 | XHHW-2 | RHH / RHW-2 |
|---|---|---|---|
| #14 | 531 | 531 | 246 |
| #12 | 387 | 387 | 198 |
| #10 | 244 | 244 | 154 |
| #8 | 140 | 140 | 92 |
| #6 | 101 | 101 | 70 |
| #4 | 62 | 62 | 52 |
| #3 | 52 | 52 | 45 |
| #2 | 44 | 44 | 38 |
| #1 | 32 | 32 | 27 |
| #1/0 | 27 | 27 | 23 |
| #2/0 | 23 | 23 | 19 |
| #4/0 | 15 | 15 | 13 |
WORKED EXAMPLE & NEC REFERENCES
The NEC numbers behind 4" RMC
NEC 2023 Chapter 9, Table 4 lists the interior cross-sectional area of every standard trade size for each conduit family. For 4" RMC (Article 344), the total 100% area is 12.8820 in². The allowable conductor fill is then derived from Table 1: 53% for a single conductor (6.8275 in²), 31% for two (3.9934 in²), and 40% for three or more (5.1528 in²) — covering nearly all real-world raceway pulls.
Worked example — four #12 THHN conductors
Each #12 THHN conductor occupies 0.0133 in² (NEC Ch.9 Table 5). Four conductors fill 4 × 0.0133 = 0.0532 in², which is 0.0532 ÷ 12.8820 = 0.4% of total area. Because that is well below the 40% NEC limit for 5.1528 in², the pull is compliant — and you can keep adding conductors up to 387× #12 THHN before exceeding the cap.
If you exceed the fill cap
Step up one trade size. Increase a 4" RMC to 5" when the calculated fill crosses 40%. Reducing one trade size is rarely worth the labor: pull tension climbs fast, jam probability spikes (NEC Ch.9 Informational Note re: 2.8–3.2 conduit-ID to wire-OD ratio), and you lose room for de-rating or future moves.
Source citations
NFPA 70 (2023) — National Electrical Code. Chapter 9, Table 1: percent of cross section of conduit and tubing for conductors. Table 4: dimensions and percent area of conduit and tubing (Article 344). Table 5: dimensions of insulated conductors.