Six factors affect spring fatigue strength

Six factors affect spring fatigue strength
There is a certain relationship between the yield strength of the yield strength material and the fatigue limit. In general, the higher the yield strength of the material, the higher the fatigue strength.
Several Factors Influencing Spring Fatigue Strength
1. There is a certain relationship between the yield strength of the yield strength material and the fatigue limit. In general, the higher the yield strength of the material, the higher the fatigue strength. Therefore, in order to improve the fatigue strength of the spring, the yield strength of the spring material should be improved. Or use a material with a high yield strength and tensile strength ratio. For the same material, the fine-grained structure has a higher yield strength than the coarse-grained structure.
2. The maximum stress in the surface state occurs mostly in the surface layer of the spring material, so the surface quality of the spring has a great influence on the fatigue strength. The defects such as cracks, flaws and flaws caused by the spring material during rolling, drawing and rolling are often the cause of spring fatigue fracture.
The smaller the surface roughness of the material, the smaller the stress concentration and the higher the fatigue strength. Effect of surface roughness of material on fatigue limit. As the surface roughness increases, the fatigue limit decreases. In the case of the same roughness, different steel grades and different coiling methods have different degrees of fatigue limit reduction. For example, the degree of reduction of the cold coil spring is smaller than that of the hot coil spring. Because the steel coil spring and its heat treatment are heated, the surface of the spring material is roughened due to oxidation and decarburization occurs, which reduces the fatigue strength of the spring.
The surface of the material is ground, pressed, shot blasted and rolled. All can increase the fatigue strength of the spring.
3. The larger the size of the size-effect material, the higher the likelihood of defects due to various cold and hot-working processes and the greater the potential for surface defects, all of which can lead to reduced fatigue performance. Therefore, the effect of size effect must be considered when calculating the fatigue strength of the spring.
4. Metallurgical Defects Metallurgical defects refer to the segregation of non-metallic inclusions, bubbles, and elements in the material, and so on. Inclusions present on the surface are stress concentration sources that can cause premature fatigue cracks between the inclusions and the substrate interface. Vacuum smelting, vacuum casting and other measures can greatly improve the quality of steel.
5. When corrosive medium springs work in corrosive media, pitting or surface grain boundaries are corroded and become fatigue sources, and they gradually expand under the stress and cause fractures. For example, in spring steel working in fresh water, the fatigue limit is only 10% to 25% in the air. The effect of corrosion on the fatigue strength of the spring is not only related to the number of times the spring is subjected to variable loads, but also related to the service life. Therefore, when designing and calculating the spring affected by corrosion, the working life should be taken into consideration.
For springs operating under corrosive conditions, in order to ensure their fatigue strength, materials with high corrosion resistance, such as stainless steel, non-ferrous metals, or surfaces with protective layers such as plating, oxidation, spray, and paint, may be used. Practice shows that cadmium plating can greatly increase the fatigue limit of the spring.
6. The fatigue strength of the temperature carbon steel decreases from room temperature to 120°C and rises from 120°C to 350°C. After the temperature exceeds 350°C, it decreases again, and there is no fatigue limit at high temperatures. For springs operating at high temperatures, heat-resistant steels should be considered. Below room temperature, the fatigue limit of the steel increases.
For details on these factors that affect the fatigue strength factor, see the relevant information.

Cold Drawn Steel Bar

Cold drawn steel bar is produced by Hot Rolled Steel Bar or wire rod to get smooth surface, more precision size, higher mechanical properties, which improves machining characteristics. It can also get various sections and sizes. So cold drawn steel bar is a better choice for machining users.


For high carbon steel or alloy steel bars, to avoid the cracks in inner or surface, the bars are usually required to be annealed before cold drawing.

To get different mechanical properties or hardness depending on final usage, the cold drawn bars will also be heat treated such as annealed, normalized or quenched and tempered(Q&T).

For CNC machines usage, to get much more precision sizes or much more better surface roughness for chrome plating, the cold drawn steel bars can also be centerless ground or polished.

We have more advantages on producing cold drawn steel bars:

1) Big stocks of hot rolled round bars or wire rods as raw materials

2) Wide range of cold drawn steel bar sizes: from 10mm to 150mm

3) Different cold drawing medias powder or oil to get different surface

4) Straightening machines to get better straightness up to 0.5mm/m

5) Grinding and polishing machines to get better roughness upto 0.4um

6) Heat treating furnaces to adjust the mechanical properties

7) Full sets of testing equipment to test the sizes, mechanical properties and microstructure.

8) Multiple packages to avoid broken packages and anti-rusty

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