Product Details:
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Place of Origin: | China |
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Brand Name: | LKS |
Certification: | CE / ISO9001:2008 |
Model Number: | 1x19 |
Payment & Shipping Terms:
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Minimum Order Quantity: | 1mtrs |
Price: | USD5000/TON |
Packaging Details: | Seaworthy packing or as request |
Delivery Time: | 15 days after the order confirmation |
Payment Terms: | L/C, T/T |
Supply Ability: | 100tons monthly |
Detail Information |
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Steel Grade: | SAE1006,SAE1008,Q195,Q235 | Standard: | AISI, ASTM, BS, DIN, GB, JIS |
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Wire Gauge: | 0.2-14MM | Type: | Drawn Wire,Carbon Steel Wire |
Alloy Or Not: | Non-alloy | Service: | OEM/ODM |
Special Use: | Free Cutting Steel | Packaging: | In Coil And Pallet |
High Light: |
coated stainless steel cable,stainless steel cable |
Product Description
302/304 Stainless Steel Wire Rope 1x19 Strand For Rigging , Hoisting And Guying
The 1x19 construction 316 grade stainless steel wire rope is stronger than other types of stainless steel cable and has less stretch. This also means it is non flexible.
1x19 stainless steel wire rope is often used in yacht and sail boat rigging, architectural structural rigging and balustrading.
1x19 construction wire rope does not allow for kinks or bends
1x19 stainless steel strand is a very popular stainless steel construction. Used heavily throughout the marine industry, 1x19’s excellent breaking load and low stretch characteristics along with its’ aesthetic appeal make it a favourite for marine, structural and balustrade applications as well as many others, examples of which are shown below:
Stress analysis in the manufacture of stainless steel wire rope
Stainless steel wire in the stainless steel wire rope is made by drawing. In the drawing process, the residual tensile stress is formed in the stainless steel wire; the stainless steel wire is twisted into the strand, and then the strand is twisted into the rope. It is also necessary to produce twisting stress. Therefore, there are two kinds of stresses in the manufacturing process of stainless steel wire rope, that is, residual drawing stress and twisting stress.
There are three forms of residual tensile stress.
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(1) residual tensile stress. In the drawing of steel wire, due to the difference in the angle of the mold, the lubrication condition and the cooling condition, when the steel wire is deformed, the "grain fiber" of the inner layers of the steel wire has the difference of displacement and the difference of deformation, so the tensile stress is produced in the longitudinal direction of the wire. This tensile stress will be partially retained inside the steel wire to form residual tensile stress.
(2) the residual bending stress. During the drawing process, the bending stress is retained inside the steel wire when the wire is bent in the roller and drum of the drawing machine. Especially when the diameter of the reel is not in line with the diameter of the steel wire (i.e., the bending ratio is not consistent), the residual bending stress is more obvious. In addition, if the exit center of the die and the cutting point of the steel wire in the drum are not on the natural horizontal tangent, it will also aggravate the formation of the bending stress. Sometimes there is even "infinity".
(3) when the wire drawing machine pulls the steel wire, the steel wire will twist around its own axis and form torsional stress. The number of twists depends on the rotation of the rod on the drum and the situation of the mold matching.
Stainless steel 304 wire rope with 1x19 standard construction is used for rigging, hoisting, push-pull, and guying applications. Stainless steel 304, also called 18-8, is corrosion-resistant, and withstands high temperatures for a wide range of operation. Stainless steel 304 is a versatile material, commonly used in a wide variety of applications, and in saline atmospheres. 1x19 strand core has one strand of wire rope with nineteen wires in each strand, formed helically around a strand core. 1x19 strand core offers abrasion-resistance, and is minimally flexible.
Breaking Loads | |||
Nominal Diameter | Approximate Mass | Minimum breaking loads - 1570 Mpa | |
[mm] | [kg/m] | [kN] | [Kg] |
2 | 0.019 | 3.14 | 320 |
2.5 | 0.03 | 4.9 | 499 |
3 | 0.043 | 7.06 | 719 |
4 | 0.078 | 12.6 | 1,284 |
5 | 0.122 | 19.6 | 1,998 |
6 | 0.176 | 28.2 | 2,875 |
7 | 0.239 | 34.8 | 3,548 |
8 | 0.312 | 45.5 | 4,639 |
9 | 0.395 | 57.6 | 5,873 |
10 | 0.488 | 71.1 | 7,250 |
11 | 0.591 | 86 | 8,769 |
12 | 0.703 | 102 | 10,401 |
14 | 0.957 | 139 | 14,174 |
16 | 1.25 | 182 | 18,558 |
19 | 1.76 | 212 | 21,617 |
22 | 2.36 | 285 | 29,061 |
26 | 3.3 | 398 | 40,584 |
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