2018
DOI: 10.1038/s41598-018-28069-7
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Optimization-based design of an elastostatic cloaking device

Abstract: We present a new method for the design of devices to manipulate the displacement field in Elastic materials. It consists of solving a nonlinear optimization problem where the objective function defines the error in matching a desired displacement field, and the design variables determine the required material distribution within the device. In order to facilitate fabrication, the material at a given point of the device is chosen from a set of predefined materials, giving raise to a discrete optimization proble… Show more

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Cited by 21 publications
(18 citation statements)
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References 27 publications
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“…Wang et al's design configuration, for a plate with central circular hole under displacement loading, achieved a 4% difference in directional spatial displacement fields when cloaked, compared to 17.2% when uncloaked [21]. Optimization-based design by Fachinotti et al [22] presented a device to manipulate displacement fields on a structure under uniaxial compression loading. Fachinotti et al plotted displacement fields for both homogeneous plates and plates with a cloaked hole.…”
Section: Motivationmentioning
confidence: 99%
“…Wang et al's design configuration, for a plate with central circular hole under displacement loading, achieved a 4% difference in directional spatial displacement fields when cloaked, compared to 17.2% when uncloaked [21]. Optimization-based design by Fachinotti et al [22] presented a device to manipulate displacement fields on a structure under uniaxial compression loading. Fachinotti et al plotted displacement fields for both homogeneous plates and plates with a cloaked hole.…”
Section: Motivationmentioning
confidence: 99%
“…Such an annular device allows the redirection of the electromagnetic field to surround the object, while also remains unperturbed outside the metamaterial region. Important achievements in electromagnetic cloaking were made for both microwave and optical frequencies, and such ideas were successfully extended to other fields, such as thermodynamics, acoustics, and mechanics . In the case of heat‐transfer problems, the key to achieve invisibility is also the heat conduction equation invariance under curvilinear transformations …”
Section: Invisibility and Camouflagementioning
confidence: 99%
“…Important achievements in electromagnetic cloaking were made for both microwave [26][27][28] and optical frequencies, [29][30][31][32][33][34][35][36][37][38][39] and such ideas were successfully extended to other fields, [40] such as thermodynamics, [1,[13][14][15][41][42][43][44][45][46][47][48][49] acoustics, [50][51][52][53] and mechanics. [54][55][56][57] In the case of heat-transfer problems, the key to achieve invisibility is also the heat conduction equation invariance under curvilinear transformations. [58,59]…”
Section: Invisibility and Camouflagementioning
confidence: 99%
“…The elliptic equations governing elastostatics are not form-invariant under coordinate transformations [11]; thus, far fewer attempts have been made to achieve elastostatic cloaking [16,17]. Topology optimization has been pursued for elastostatic cloak design [18,19], but a formulation in the discrete setting that is capable of achieving multi-directional elastostatic cloaking devices that mitigate the influence of circular or elliptical holes has not been fully explored.
Figure 1Elastostatic cloak design in 2D lattices: ( a ) reference lattice; ( b ) lattice with a prescribed circular hole surrounded by a region in which a cloak should be designed; ( c ) lattice in which the cloak geometry is defined by a coordinate transformation of the reference lattice nodes.
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Section: Introductionmentioning
confidence: 99%