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Wire Rope
- Low Elongation - giving significantly lower stretch
than conventional strand. The requirement to prestress
the strand is virtually eliminated due to the excellent
Modulus Value of the Rope more than 30% higher than Conventional
Strand.
- Exceptional Breaking Force - Incorporating the
Dyform process of strand compaction gives a breaking load
approximately 30% higher than conventional strand.
- Excellent Wear Characteristics - When subject
to wearing forces, the smooth surface of the Dyform Strand
ensures that damage is minimised and lifetime maximised.
- Visually Attractive - The Dyform Process shapes
the strand to give a smooth exterior giving an attractive
appearance in Yachting and Architectural applications.
- Maximum Corrosion Resistance - The High Tensile
wire used in the strand is 316S31 material in a fully austenitic
condition to give optimum resistance to corrosion.
- Guaranteed Breaking Force - A sample of every
strand manufactured is broken to destruction to give peace
of mind.
Table of stress, mass and minimum breaking force Dyform® Stainless
Steel Strand
| Nom dia mm |
Construction |
Approx Mass Kg/100m |
Minimum breaking force |
| kN |
tonnes |
| 2.5 |
1 x 7 |
3.40 |
6.80 |
0.71 |
| 3 |
1 x 7 |
4.90 |
9.80 |
1.07 |
| 3.5 |
1 x 7 |
6.70 |
13.2 |
1.43 |
| 4 |
1 x 7 |
8.80 |
17.5 |
1.89 |
| 5 |
1 x 19 |
13.5 |
23.9 |
2.80 |
| 6 |
1 x 19 |
19.4 |
34.8 |
4.08 |
| 7 |
1 x 19 |
26.0 |
48.2 |
5.61 |
| 8 |
1 x 19 |
34.5 |
60.3 |
6.83 |
| 10 |
1 x 19 |
54.0 |
95.8 |
10.5 |
| 11 |
1 x 19 |
68.0 |
119 |
13.4 |
| 12 |
1 x 19 |
80.7 |
141 |
15.3 |
| 14 |
1 x 25 |
115 |
189 |
20.9 |
| 16 |
1 x 25 |
147 |
245 |
26.8 |
| 19 |
1 x 31 |
206 |
314 |
32.0 |
THE HIGH ELASTIC MODULUS GIVES LOW STRETCH
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