35(W)×K19 Compacted Strand Steel Wire Rope
35(W)×K19 Compacted Strand Steel Wire Rope is a type of wire rope that undergoes a special “compaction” process during manufacturing, where the individual strands of the wire are tightly compressed to reduce the spaces between the wires. This results in a stronger, more durable wire rope compared to traditional wire ropes, making it ideal for high-load and demanding applications.
Description
The 35(W)×K19 Compacted Strand Steel Wire Rope is a high-flexibility, rotation-resistant multi-strand lifting rope made of 35 strands, each with 19 wires per strand using a Warrington (W-type) structure and K-style compaction. This configuration offers an optimal combination of strength, flexibility, fatigue resistance, and low rotation—making it ideal for overhead lifting, offshore winching, and multi-layer drum winding where operational safety and longevity are paramount. Each strand is individually compacted to increase metal cross-section and minimize surface roughness, reducing wear on pulleys, drums, and sheaves. Its multi-strand construction distributes load evenly, significantly improving rope stability and service life.
Feature of 35(W)×K19 Compacted Strand Steel Wire Rope
- Compacted Structure: Through the compaction process, the individual wires in each strand are compressed together, increasing the overall strength of the rope and reducing internal friction.
- Higher Load Capacity: The compacted design allows the wire rope to withstand higher loads, making it suitable for heavy-duty lifting and hauling tasks.
- Improved Wear Resistance: The tight packing of the wires reduces friction between them, enhancing the rope's abrasion resistance and extending its service life in demanding environments.
- Fatigue Resistance: The compacted strands make the rope more resistant to fatigue from repeated bending and stretching, significantly increasing its durability.
- Better Flexibility: Despite its increased strength, compacted strand wire ropes maintain a good level of flexibility, allowing them to perform well in applications that require frequent bending or movement.
Reviews
There are no reviews yet.