Abstract
Different macroscopic domain patterns have been observed in thin strips of nano-gained polycrystalline NiTi under different stretching rates. To study the formation and evolution of the domain patterns, 2D finite element method (FEM) and non-local strain gradient model with non-convex free energy function are used for simulation of the patterns. It is shown that the average spacing between neighboring domains is governed by a power-law scaling with exponent −1/2 to stretching rates in the stretching rate range of 10−4–3×10−2/s, while the scaling exponent is −1/6 in the range of 3 × 10−2–3/s. With further increase of stretching rate (>3/s), the pattern formation is suppressed and the transformation becomes spatially homogenous. The above 2D non-local FEM simulation results are supported by experimental observations.
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