Neodymium Disc Magnets, N35, Unplated, High Temp
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| Part # | D | T | Holding Force (lbs) | Specs | Price | Quantity | |
| N35U125125HT | .125 | .125 | 0.7 | Download | $0.58 | Add | |
| N35U125100HT | .125 | .100 | 0.7 | Download | $0.54 | Add | |
| N35U250250HT | .250 | .250 | 2.9 | Download | $2.36 | Add | |
| N35U250100HT | .250 | .100 | 1.8 | Download | $1.25 | Add | |
| N35U320250HT | .320 | .250 | 4.3 | Download | $3.82 | Add | |
| N35U375250HT | .375 | .250 | 5.5 | Download | $2.90 | Add | |
| N35U375125HT | .375 | .125 | 3.4 | Download | $1.80 | Add | |
| N35U375100HT | .375 | .100 | 2.8 | Download | $1.58 | Add | |
| N35U375060HT | .375 | .060 | 1.5 | Download | $1.13 | Add | |
| N35U875375HT | .875 | .375 | 19.0 | Download | $5.33 | Add |
| Part # | 1+ | 50+ | 101+ | 251+ | 501+ | 1001+ | Qty. | |
| N35U125125HT | $0.58 | $0.54 | $0.52 | $0.48 | $0.40 | $0.36 | Add | |
| N35U125100HT | $0.54 | $0.50 | $0.45 | $0.42 | $0.38 | $0.34 | Add | |
| N35U250250HT | $2.36 | $2.17 | $2.02 | $1.84 | $1.68 | $1.56 | Add | |
| N35U250100HT | $1.25 | $1.16 | $1.10 | $0.98 | $0.91 | $0.84 | Add | |
| N35U320250HT | $3.82 | $3.52 | $3.26 | $2.99 | $2.70 | $2.53 | Add | |
| N35U375250HT | $2.90 | $2.67 | $2.46 | $2.29 | $2.06 | $1.90 | Add | |
| N35U375125HT | $1.80 | $1.67 | $1.54 | $1.43 | $1.26 | $1.20 | Add | |
| N35U375100HT | $1.58 | $1.47 | $1.39 | $1.24 | $1.14 | $1.07 | Add | |
| N35U375060HT | $1.13 | $1.03 | $0.96 | $0.90 | $0.82 | $0.77 | Add | |
| N35U875375HT | $5.33 | - | - | - | - | - | Add |
Bring on the Heat! These magnets can safely be used at operating temperatures up to 300° Fahrenheit (149° Celsius) – depending on the magnetic circuit. Call for technical advice.
Click here to learn more about neodymium magnets and their uses.
- All Measurements are in inches (unless otherwise noted)
- Direction of Magnetization (DOM) is through the thickness unless noted
- Unless otherwise specified, magnets will be furnished in magnetized condition
- Holding forces are approximate. These are average values obtained under laboratory conditions. Size, shape, and material of the test piece may affect actual pull forces
