| ISBN13: | 9781032900469 |
| ISBN10: | 1032900466 |
| Binding: | Paperback |
| No. of pages: | 416 pages |
| Size: | 297x210 mm |
| Weight: | 766 g |
| Language: | English |
| 696 |
Natural sciences in general, history of science, philosophy of science
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Mechanical Engineering Sciences
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Natural sciences
Natural sciences in general, history of science, philosophy of science (charity campaign)
Biology in general (charity campaign)
Mechanical Engineering Sciences (charity campaign)
Environmental sciences (charity campaign)
Mechanics (charity campaign)
Natural sciences (charity campaign)
Advanced Materials in Engineering Applications
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The formability features of sheets made of the alloy Al 8011 are examined experimentally and the results are compared with the numerical ones in this research.
The formability features of sheets made of the alloy Al 8011 are examined experimentally and the results are compared with the numerical ones in this research. Through an axisymmetric finite element simulation of the Erichsen cupping test, formability characteristics were evaluated. The Erichsen cupping test was used to exam?ine the effects of several factors, including friction at the punch-sheet contact and sheet thickness. The nonlinear finite element method is used to calculate the dome height, stress, and strain values for the aluminum sheet, and the results are then compared to the numerical ones. The findings demonstrated that the Al 8011 alloy?s form?ability greatly rises with increasing sheet thickness. The formability is significantly impacted by the lubricant. The application of the finite element technique to forecast the formability of Al 8011 alloy.
