Freeze protection for water supply and drain Pipes.
Self-regulating, cut-to-length, heat trace cable.
If you’re looking for “heat tape” to protect your pipes, then you may keep coming across the wrong product for freeze protection. The correct term is heat trace cable, but we know what you’re looking for when you contact us for help.
Heat trace cable comes in two different styles; constant wattage and self regulating. You need self-regulating heat trace, and it comes in pre-cut cables with a end plug, or cut-to-length, which requires a power connection and end seal kit. If you’re not sure, give us a call for help choosing the correct heat trace system for your application.
Our self-regulating heat trace cables are protected by a tinned copper braid and a polyolefin outer jacket to provide grounding and additional mechanical protection for the cable. An optional fluoropolymer outer jacket is available if additional environmental protection is required.
Electric heat tracing, heat tape or surface heating, is a system used to maintain or raise the temperature of pipes and vessels. Trace heating takes the form of an electrical heating element run in physical contact along the length of a pipe. The pipe must then be covered with thermal insulation to retain heat losses from the pipe.
Specifications
- Continuous maintenance temperature: 150°F (66°C) maximum
- Intermittent exposure temperature: 185°F (85°C) maximum; -20°F (-29°C) minimum
- 3, 5, 8, or 10 watts/ft (10, 16, 26, or 33 watts/m)
- Supply voltages: 110 – 120VAC or 208 – 277VAC
- Moisture, chemical, and flame resistant
- 16AWG bus wires
- Braid resistance:
- Tinned copper: 0.003 ohms/ft (0.009 ohms/m)
- Stainless steel: 0.125 ohms/ft (0.410 ohms/m)
- T-Rating**
- -T6: 3, 5, and 8 watts/ft (10, 16, and 26 watts/m)
- -T5: 10 watts/ft (33 watts/m)
** Electrical equipment T-rating codes define the maximum surface temperature that equipment will reach. It is used in hazardous (classified) area applications.
Outer Layer Options
| Product Type | Description | Dimensions | Shipping weight per 500-foot (152m) spool | Purpose |
| SLCAB-B | Tinned Copper Metal Braid | 0.2″ x 0.4″ (6mm x 11mm) |
40 lb. (18kg) | Ordinary applications |
| SLCAB-BP | Tinned Copper Metal Braid with Thermoplastic Elastomer Overjacket | 0.3″ x 0.6″ (7mm x 15mm) |
48 lb. (22kg) | For use in weak chemical environments (i.e. weak acids) |
| SLCAB-BF | Tinned Copper Metal Braid with Fluoropolymer Overjacket | 0.3″ x 0.6″ (7mm x 15mm) |
48 lb. (22kg) | For use in strong chemical environments (i.e. strong acids) |
| SLCAB-SS | Stainless Steel Metal Braid | 0.2″ x 0.4″ (6mm x 11mm) |
40 lb. (18kg) | More resistant to rusting and corrosion than SL-B |
Maximum Circuit Length in Feet per Circuit Breaker Size
| Heat Cable Type | Circuit Breaker Size | Start-up Temperature | ||
| 50oF (10oC) | 0oF (-20oC) | -20oF (-29oC) | ||
| SLCAB3120 | 15 amp 20 amp 30 amp |
300 – – |
200 270 330 |
180 230 330 |
| SLCAB3240 | 15 amp 20 amp 30 amp |
660 – – |
410 560 660 |
360 480 660 |
| SLCAB5120 | 15 amp 20 amp 30 amp |
230 270 – |
150 200 270 |
130 175 260 |
| SLCAB5240 | 15 amp 20 amp 30 amp |
460 540 – |
300 400 540 |
260 345 520 |
| SLCAB8120 | 15 amp 20 amp 30 amp 40 amp |
150 200 210 – |
95 125 190 210 |
85 100 170 210 |
| SLCAB8240 | 15 amp 20 amp 30 amp 40 amp |
295 390 420 – |
195 250 375 420 |
170 225 340 420 |
| SLCAB10120 | 15 amp 20 amp 30 amp 40 amp |
115 150 180 – |
70 95 145 180 |
60 85 120 165 |
| SLCAB10240 | 15 amp 20 amp 30 amp 40 amp |
230 305 360 – |
150 200 300 360 |
130 175 260 360 |
Note: Special consideration must be given for the circuit breaker due to the high initial in-rush currents.