Abstract
Recently, we have shown that kirigami’s high extensibility emerges as a result of the transition in its deformation modes and that the transition observed through the force-elongation curve can be ...
Highlights
We have shown that kirigami’s high extensibility emerges as a result of the transition in its deformation modes and that the transition observed through the force-elongation curve can be discontinuous
We further show that this expression well accounts for our experimental results
We extend our previous model to recover the discontinuity in the transition, deriving an expression for quantifying the force drop at the transition
Summary
We have shown that kirigami’s high extensibility emerges as a result of the transition in its deformation modes and that the transition observed through the force-elongation curve can be discontinuous. SHORT NOTE Discontinuity in the In-plane to Out-of-plane Transition of Kirigami Midori Isobe and Ko Okumura J. Discontinuity in the In-plane to Out-of-plane Transition of Kirigami
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