A device and methods are provided for deep rolling. In one embodiment, a deep rolling tool for applying compressive stress with rolling elements includes a flexible fork having a base section and a plurality of fork arms and a plurality of rolling elements, wherein each rolling element is mounted to
A device and methods are provided for deep rolling. In one embodiment, a deep rolling tool for applying compressive stress with rolling elements includes a flexible fork having a base section and a plurality of fork arms and a plurality of rolling elements, wherein each rolling element is mounted to a fork arm with eccentric roller bushings, wherein each rolling element is mounted at the distal end of a fork arm, and wherein the rolling elements are configured to apply a compressive stress to articles received by the deep rolling tool.
대표청구항▼
1. A deep rolling tool for applying compressive stress with rolling elements, the deep rolling tool comprising: a flexible fork having a base section and a plurality of fork arms extending outwardly from the base section without a pivot, each of the plurality of fork arms having a distal end with re
1. A deep rolling tool for applying compressive stress with rolling elements, the deep rolling tool comprising: a flexible fork having a base section and a plurality of fork arms extending outwardly from the base section without a pivot, each of the plurality of fork arms having a distal end with respect to the base section, wherein the distal end comprises an aperture; anda plurality of rolling elements, wherein each of the plurality of rolling elements is rotatably mounted to one of the plurality of fork arms via eccentric roller bushings, and wherein each of the plurality of rolling elements are located within the aperture of the respective distal end of each of the plurality of fork arms, and wherein at least two of the plurality of rolling elements are configured to define an opening therebetween, the opening being located between at least two of the plurality of fork arms, and wherein the plurality of rolling elements apply a compressive stress to a metal article located in the opening. 2. The deep rolling tool of claim 1, wherein each of the plurality of rolling elements is a crowned roller, the crowned roller having a minor radius for contacting the article located in the opening, and a major diameter adapted to provide a load capacity of the crowned roller. 3. The deep rolling tool of claim 1, wherein the deep rolling tool is configured to apply a residual stress to the article when it is located in the opening and the article is at least one of a turbine blade, compressor blade, a fan blade, a bladed disk, a bladed element and a metal object. 4. The deep rolling tool of claim 1, wherein the deep rolling tool is configured to apply the compressive stress to opposite sides of the article when it is located in the opening. 5. The deep rolling tool of claim 1, wherein the plurality of rolling elements apply a residual stress to the article when it is located in the opening, wherein the applied residual stress inhibits crack propagation in the article. 6. The deep rolling tool of claim 1, wherein each of the plurality of rolling elements eccentrically rotates about an axis. 7. The deep rolling tool of claim 1, wherein the article is a bladed object and the deep rolling tool is configured to improve fatigue life of the bladed object when it is located in the opening. 8. A deep rolling tool for applying compressive stress with rolling elements, the deep rolling tool comprising: a flexible fork having a base section and a plurality of fork arms extending outwardly from the base section without a pivot, each of the plurality of fork arms having a distal end with respect to the base section, wherein the distal end comprises an aperture; anda plurality of rolling elements, wherein each of the plurality of rolling elements is rotatably mounted to one of the plurality of fork arms for eccentric rotation about an axis, and wherein each of the plurality of rolling elements are mounted within the aperture of the respective distal end of each of the plurality of fork arms, and wherein at least two of the plurality of rolling elements are configured to define an opening therebetween, the opening being located between at least two of the plurality of fork arms, and wherein the plurality of rolling elements apply a compressive stress to a metal article located in the opening. 9. The deep rolling tool of claim 8, wherein each of the plurality of rolling element is a crowned roller having a minor radius for contacting the article located in the opening and a major diameter adapted to provide a load capacity of the crowned roller. 10. The deep rolling tool of claim 8, wherein the deep rolling tool is configured to apply a residual stress to the article when it is located in the opening and the article is at least one of a turbine blade, a compressor blade, a fan blade, a bladed disk, a bladed element and a metal object. 11. The deep rolling tool of claim 8, wherein the deep rolling tool is configured to apply the compressive stress to opposite sides of the article when it is located in the opening and the compressive stress improves at least one of a fatigue life of the article, a surface finish of the article and an aerodynamic performance of the article. 12. The deep rolling tool of claim 8, wherein the plurality of rolling elements apply a residual stress to the article when it is located in the opening wherein the applied residual stress inhibits crack propagation in the article. 13. The deep rolling tool of claim 8, wherein each of the plurality of rolling elements eccentrically rotates about an axis. 14. The deep rolling tool of claim 8, wherein the article is a bladed object and the deep rolling tool is configured to improve fatigue life of the bladed object.
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