Abstract
Double-roll rotary forging is an emerging plastic forming technology based on rotary forging. Owing to the advantages of labor saving, small eccentric load, low noise and vibration, good uniformity, high surface quality, and material saving, it is very promising for fabrication of large-diameter thin-walled disc. To date, a few relevant researches on the double-roll rotary forging technology of large-diameter thin-walled metal discs have been reported, and the forming mechanisms and process of disc workpieces remain uninvestigated. Herein, a 3D rigid-plastic finite element model (FEM) is established to simulate the fabrication process of large-diameter thin-walled disc; four geometric features appear in the forming process: “mushroom” shape, “upper drum” shape, “drum shape” shape, and “lower drum” shape. Equivalent stress, equivalent strain, and temperature field of these four geometric shapes are analyzed, and the forming mechanism of these four geometric shapes is revealed. The reliability and accuracy of FEM are verified through experiments, and the four geometric shape features occur in the process are consistent with the simulation. The research results provide valuable guidelines for better understanding of double-roll rotary forging for the fabrication of large-diameter thin-walled discs.
Highlights
Rotary forging technology is an advanced local accumulation plastic forming technology
Based on G.liu’s study, Xinghui Han and Lin Hua [11,12,13,14,15] established 3D elastoplastic finite element model to study the forming characteristics of discs and rings, in order to further improve the accuracy of the 3D elastoplastic finite element model, they revised the friction coefficient [16], and studied the contact pressure, slip distance and mold wear [17,18,19,20,21], which significantly promote the reliability of FEM for forging application
The working principle of double-roll rotary forging integral forming of large diameter thin-walled metal disc is shown in Figure 1: The double rollers continuously rotate around the central axis of the main shaft of the equipment, and the lower die feed the disc workpiece to upwards simultaneously
Summary
Rotary forging technology is an advanced local accumulation plastic forming technology. Based on G.liu’s study, Xinghui Han and Lin Hua [11,12,13,14,15] established 3D elastoplastic finite element model to study the forming characteristics of discs and rings, in order to further improve the accuracy of the 3D elastoplastic finite element model, they revised the friction coefficient [16], and studied the contact pressure, slip distance and mold wear [17,18,19,20,21], which significantly promote the reliability of FEM for forging application. Rotary forging technology is unavailable to form large-diameter thin-walled disc workpieces To address this problem, we [27] proposed for the first time a double-roll rotary forging method and designed the double roll forging machine, which transformed sing roll into two symmetrical roll along the central axis of the two main shafts. The research results provide valuable guidelines for better understanding of double-roll rotary forging and offered a promising technology for the fabrication of large-diameter thin-walled discs
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