RG Die springs
RG Die springs
We’ll usually dispatch your order the same day with expected delivery within 2-4 days. This applies to all stocked die springs
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Die springs function like conventional compression springs. The more it is compressed, the more energy it releases. A die spring is produced from a rectangular spring wire, which provides greater force than ordinary round spring wire. Based on the rectangular shape and unique coating of the wire, RG die springs can cope with heavy loads. The RG series of die springs is made from an extremely strong Chrome-Vanadium alloy in accordance with the DIN-17225 (SAE 6150) standard. The wire is then shot peened and heat-treated to increase the tensile strength and durability.
Characteristic of die springs is the significant force produced and a short spring travel. Virtually every size of die spring is divided into 4 colour categories, which are based on the force and travel of the die spring. See the colour groups under the table.
If a spring with either more or less force is required, a spring with the same dimensions – but with a different colour code – can be used, as the spring has the same installation dimensions.
Please note that the colour code is not the same for RG and ISO die springs.
- ST50300In stock: 564Dh - Min. hole (in) 0.3752Dd - Max shaft (in) 0.1870L0 - Unloaded length (in) 1.0000R - Spring constant (lb/in) 59.9565S1 - Travel at F1 (in) 0.2500L1 - Length at F1 (in) 0.7500F1 - Force in N at S1 (lbs) 15.0622Sn - Maximum travel (in) 0.4701Ln - Max. loaded length (in) 0.5299Fn - Maximum load at Ln (lbs) 28.1011
- ST50310In stock: 240Dh - Min. hole (in) 0.3752Dd - Max shaft (in) 0.1870L0 - Unloaded length (in) 1.0000R - Spring constant (lb/in) 90.2203S1 - Travel at F1 (in) 0.2000L1 - Length at F1 (in) 0.8000F1 - Force in N at S1 (lbs) 17.9847Sn - Maximum travel (in) 0.3500Ln - Max. loaded length (in) 0.6500Fn - Maximum load at Ln (lbs) 31.4733
- ST50320In stock: 235Dh - Min. hole (in) 0.3752Dd - Max shaft (in) 0.1870L0 - Unloaded length (in) 1.0000R - Spring constant (lb/in) 110.2058S1 - Travel at F1 (in) 0.1500L1 - Length at F1 (in) 0.8500F1 - Force in N at S1 (lbs) 16.6359Sn - Maximum travel (in) 0.2701Ln - Max. loaded length (in) 0.7299Fn - Maximum load at Ln (lbs) 29.6748
- ST50330In stock: 129Dh - Min. hole (in) 0.3752Dd - Max shaft (in) 0.1870L0 - Unloaded length (in) 1.0000R - Spring constant (lb/in) 219.8407S1 - Travel at F1 (in) 0.1500L1 - Length at F1 (in) 0.8500F1 - Force in N at S1 (lbs) 33.0469Sn - Maximum travel (in) 0.2299Ln - Max. loaded length (in) 0.7701Fn - Maximum load at Ln (lbs) 50.5820
- ST50340In stock: 423Dh - Min. hole (in) 0.3752Dd - Max shaft (in) 0.1870L0 - Unloaded length (in) 1.2500R - Spring constant (lb/in) 54.2464S1 - Travel at F1 (in) 0.3126L1 - Length at F1 (in) 0.9374F1 - Force in N at S1 (lbs) 16.8607Sn - Maximum travel (in) 0.5874Ln - Max. loaded length (in) 0.6626Fn - Maximum load at Ln (lbs) 31.9229
- ST50350In stock: 206Dh - Min. hole (in) 0.3752Dd - Max shaft (in) 0.1870L0 - Unloaded length (in) 1.2500R - Spring constant (lb/in) 73.0899S1 - Travel at F1 (in) 0.2500L1 - Length at F1 (in) 1.0000F1 - Force in N at S1 (lbs) 18.2095Sn - Maximum travel (in) 0.4374Ln - Max. loaded length (in) 0.8126Fn - Maximum load at Ln (lbs) 31.9229
- ST50360In stock: 83Dh - Min. hole (in) 0.3752Dd - Max shaft (in) 0.1870L0 - Unloaded length (in) 1.2500R - Spring constant (lb/in) 98.2145S1 - Travel at F1 (in) 0.1874L1 - Length at F1 (in) 1.0626F1 - Force in N at S1 (lbs) 18.4343Sn - Maximum travel (in) 0.3374Ln - Max. loaded length (in) 0.9126Fn - Maximum load at Ln (lbs) 33.0469
- ST50370In stock: 172Dh - Min. hole (in) 0.3752Dd - Max shaft (in) 0.1870L0 - Unloaded length (in) 1.2500R - Spring constant (lb/in) 146.1798S1 - Travel at F1 (in) 0.1874L1 - Length at F1 (in) 1.0626F1 - Force in N at S1 (lbs) 27.4267Sn - Maximum travel (in) 0.2874Ln - Max. loaded length (in) 0.9626Fn - Maximum load at Ln (lbs) 42.0393
- ST50380In stock: 377Dh - Min. hole (in) 0.3752Dd - Max shaft (in) 0.1870L0 - Unloaded length (in) 1.5000R - Spring constant (lb/in) 39.9710S1 - Travel at F1 (in) 0.3752L1 - Length at F1 (in) 1.1252F1 - Force in N at S1 (lbs) 15.0622Sn - Maximum travel (in) 0.7051Ln - Max. loaded length (in) 0.7949Fn - Maximum load at Ln (lbs) 28.1011
- ST50390In stock: 312Dh - Min. hole (in) 0.3752Dd - Max shaft (in) 0.1870L0 - Unloaded length (in) 1.5000R - Spring constant (lb/in) 66.8087S1 - Travel at F1 (in) 0.3000L1 - Length at F1 (in) 1.2000F1 - Force in N at S1 (lbs) 20.0080Sn - Maximum travel (in) 0.5252Ln - Max. loaded length (in) 0.9748Fn - Maximum load at Ln (lbs) 35.0702
SAE-AISI 9254 (G92540) Silicon-Chromium Steel. The wire is pulled extra fine, heat-treated and shot peened..
Working temperature between -328 ºF and +328 ºF..
RG die springs are made from an extremely strong Chrome-Vanadium alloy in accordance with DIN-17225 (SAE 6150).
These springs are not stainless steel.
There are no tolerances for RG die springs. They just need to stay within the minimum hole (Dh) and maximum shaft (Dd) dimensions.
If you want a PDF datasheet or a 3D CAD drawing of the spring in .step, .iges or .sat format, these can be downloaded for free by clicking on the 3D CAD symbol next to the item number in the table.
The colour labelling is done by powder coating without a special protection from corrosion.
Usually right. The force and application is not affected by the direction of wind.
Standard die springs are not defined with a specific direction of wind. Depending on production, the springs may be either right or left wound.
The service life of a spring is generally very difficult to define. A large number of parameters come into play, and it is therefore impossible to define a service life. Parameters with a significant influence on service life include: Installation, installation method, number of movements, vibrations, shocks, torsion, length of travel, non-axial travel, temperature, wear against other surfaces, environment of use, any cleaning agents, lateral impacts, etc.
The maximum force (Fn) and/or maximum travel (Sn) should not be exceeded, as this reduces the service life significantly. To avoid uncontrolled dynamic stress, die springs should always be fitted with a specific initial tension.
The longest service life is achieved with load and travel of max. 25% of the free length (L0).
If die springs in cars or other applications are fitted or replaced with our die springs, Sodemann Industrifjedre A/S cannot be held responsible for any differences in performance or damage.
This also applies to customers who visit Sodemann Industrifjedre A/S and get help and/or guidance.
It is not possible to get custom-made die springs.
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