2021
DOI: 10.1007/s00170-021-06816-x
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The effects of machining residual stresses on springback in deformation machining bending mode

Abstract: Hybrid machining-forming technology is a combination of two thin-structural machining and incremental forming manufacturing processes. A group of complex geometry parts in which a thick region is connected to a thin wall region can be manufactured through this technology with certain advantages. The parts made by this technology require less raw material compared to the ones created by means of machining. The major problem with this technology is the dimensional and geometric inaccuracy of its products which i… Show more

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Cited by 11 publications
(2 citation statements)
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“…2 Fatigue testing using milling machine tool and designed fixture as the machining process progresses. Different areas of the specimen might experience tension or compression at different times, leading to a dynamic stress environment [23].This can reflect a scenario where structural components undergo complex stress cycles, not just uniform loading [24]. The change of the cutting direction can also change the induced stress (tension or compression).…”
Section: Verification Of Fatigue Testing Using Millingmentioning
confidence: 99%
“…2 Fatigue testing using milling machine tool and designed fixture as the machining process progresses. Different areas of the specimen might experience tension or compression at different times, leading to a dynamic stress environment [23].This can reflect a scenario where structural components undergo complex stress cycles, not just uniform loading [24]. The change of the cutting direction can also change the induced stress (tension or compression).…”
Section: Verification Of Fatigue Testing Using Millingmentioning
confidence: 99%
“…Aviation aluminium alloys, characterized by their lightweight properties and high specific strength, are extensively utilized in the aerospace sector [1]. Structures fabricated from aluminium alloy sheets, especially those of a thin-walled nature, are predominantly selected for aviation applications due to their capacity to enhance production efficiency, reduce product mass, shorten assembly durations, and decrease manufacturing expenses [2]. Nonetheless, these thin-walled aluminium alloy constructions routinely experience deformation post-manufacture.…”
Section: Introductionmentioning
confidence: 99%