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Exploring deformation mechanics of temperature assisted incremental forming with hybrid heating

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dc.contributor.author Kumar, N
dc.contributor.author Bharti, S
dc.contributor.author Krishnaswamy, H
dc.contributor.author Agrawal, A
dc.date.accessioned 2024-05-19T11:06:10Z
dc.date.available 2024-05-19T11:06:10Z
dc.date.issued 2024-05-19
dc.identifier.uri http://dspace.iitrpr.ac.in:8080/xmlui/handle/123456789/4502
dc.description.abstract Abstract: The single point incremental forming (SPIF) process is a die-less rapid prototyping sheet metal forming method, extensively researched for over two decades. SPIF shows higher formability compared to conventional sheet forming methods. Deformation of materials such as magnesium (Mg) is favored at elevated temperatures due to their poor room temperature formability. Past studies have explored heat-assisted forming techniques to achieve improved formability in SPIF. However, the underlying mechanics of deformation is sparsely explored. The present work explores the mechanism of formability improvement based on thermal gradients for SPIF in hybrid heating. The SPIF experiments are conducted for a combination of local and global heating conditions achieved using tool contact friction and cartridge heaters. The local temperature, stress distributions, and limiting strains are obtained numerically. Fracture-forming limit diagrams (FFL) are developed, and numerical predictions are validated using experimental strain measurements under different forming conditions. en_US
dc.language.iso en_US en_US
dc.subject Single point incremental sheet forming en_US
dc.subject AZ31B magnesium alloy en_US
dc.subject Formability en_US
dc.subject Global heating en_US
dc.subject Local heating en_US
dc.subject Fracture forming limits (FFLs) en_US
dc.title Exploring deformation mechanics of temperature assisted incremental forming with hybrid heating en_US
dc.type Article en_US


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