Optimal Process Planning for Laser Forming of Doubly Curved Shapes

Liu, Chao; Yao, Y. Lawrence; Srinivasan, Vijay

doi:10.1115/1.1643077

Cited by 55 publications

(26 citation statements)

References 6 publications

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“…Hutterer and Hagenah [5] applied laser forming to flattening non-circular dents with a pulsed laser and Bartkowiak et al [6] conducted experiments on the effect of an elliptical arc scan strategy and presented a laser formed hybrid cylinder part. Liu and Yao [7] made considerable progress on 3D laser-forming area. They obtained a principal strain field by the optimal development algorithm, and with the help of a FEM database they successfully determined laser-scanning paths and process parameters.…”

Section: Introductionmentioning

confidence: 99%

3D laser-forming strategies for sheet metal by geometrical information

Kim

2009

Optics & Laser Technology

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Section: Introductionmentioning

confidence: 99%

3D laser-forming strategies for sheet metal by geometrical information

Kim

2009

Optics & Laser Technology

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“…In this work, where the intrinsic material actuation is provided by the SMA constituents of the plates, the determination of the thermal input that would induce the morphing of the plate towards specific shapes is pursued. Similar problems have been addressed for laser forming of doubly curved shapes (Liu et al, 2004) and for SMA-based plates (Peraza-Hernandez et al, 2014a) under iterative optimization frameworks. With the present novel approach, the applied conditions (e.g., the temperature field) that will morph Fig. 14.…”

Section: Morphing An Sma Plate Towards a Goal Configurationmentioning

confidence: 98%

“…One approach for the achievement of changes in Gaussian curvature in plate structures is through the generation of inhomogeneous in-plane extensional/shear strain fields throughout their middle surface (Seffen and Maurini, 2013;Fernandes et al, 2010;Yu et al, 2000;Liu et al, 2004;Ryu and Shin, 2006). Relatively moderate to large rotations in plate structures entail a coupling between bending and in-plane extension/shear.…”

Section: Introductionmentioning

confidence: 99%

Analytical investigation of structurally stable configurations in shape memory alloy-actuated plates

Hernandez

Kiefer

Hartl

et al. 2015

International Journal of Solids and Structures

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a b s t r a c tStrains produced by active materials embedded in plates have been extensively used to manipulate the shape of surface-like engineering structures. Shape memory alloys (SMAs) are active materials that provide a significant amount of strain under large stresses, a characteristic of great utility in such morphing structures. In this work, an analytical approach to approximate the deformation of plates with SMA constituents is developed via the Rayleigh-Ritz method. An additive set of kinematically admissible displacement fields with unknown coefficients is used to describe the plate displacement field. The total potential energy is then calculated using the displacement field, loading conditions, and constitutive relations for the plate layer(s) composed of SMA wire meshes, dense SMA films, and/or elastic material. The unknown coefficients are then found via minimization of the total potential energy. This approach provides closed-form expressions for the approximate deformation of the plates including multistable configurations. The response of circular SMA-based plates is studied herein. The results show that temperature fields with a linear variation in the radial direction induce multistable configurations in which the plate Gaussian curvature is determined by the direction of the temperature gradient. An alternative inversion of the proposed approach is used to directly compute the temperature field required to morph a plate towards a prescribed goal shape. The obtained closed-form expressions show good agreement with detailed non-linear finite element analysis simulations. The proposed approach provides analysts with a low computational cost and relatively simple implementation to assess the potentially stable configurations of SMA-based plates under given loading conditions. Knowledge of such stable configurations is very valuable in the design of SMA-based morphing structures.

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“…Compared with conventional forming process, laser forming of sheet metal requires no mechanical contact of hard tooling.Production of complex shapes can be achieved through the specified scanning strategy of laser spots. Therefore, this approach has many technological advantages including design flexibility, producing complex shapes, and reducing the cost of forming process when low-to medium-volume production or prototyping is concernedin industry (Liu et al, 2004;Vollertsen, 1994).Laser forming, usually indicating laser thermal forming, utilizes a defocus laser source to bend sheet metal parts by introducing thermal stresses across the thickness.Edwardson et al presented that this process also allowedto form FMLs with sharp radii by introducing the thermal stress in the cover metal layer (Carey et al, 2010). However, under the high thermal exposure and forced cooling, the unintended delamination and material failure of burning and fibre cracking make it hard to maintain material properties of shaped parts.…”

Section: Introductionmentioning

confidence: 98%