Interfacial Properties and Critical Avalanche Exponents of Shape Memory Alloys and Related Materials

机译：形状记忆合金及相关材料的界面性质和临界雪崩指数

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Interfaces in martensites and ferroelastic crystals show internal structures which are not simply the interpolation of the two adjacent domains. These structures can influence solitary front propagation as observed for large depinning forces. They also contribute to local pinning of walls when the applied forces are close to the depinning threshold. Under these conditions, walls propagate in jerks and avalanches. Typical depinning is observed for very small forces in single ferroelastic needle domain. It is shown that jerks occur in elastically driven system both for planar walls (D=2) and for needle tips (which represents a line in the three dimensional crystal. D=1). The experimental power law exponents are ～ -2 for the energy exponent for collective avalanches, -1.3 for the elastic response function and -1.8 for an advancing needle domain in LaAlO_3.

机译：马氏体和铁弹性晶体中的界面显示出内部结构，而不仅仅是两个相邻畴的内插。这些结构会影响较大的钉扎力，因此会影响孤立的正面传播。当施加的力接近脱钉阈值时，它们也有助于壁的局部钉扎。在这些条件下，墙壁会在抽搐和雪崩中蔓延。对于单个铁弹性针头区域中的很小的力，通常会发生钉扎现象。结果表明，在弹性驱动系统中，无论是平面壁（D = 2）还是针尖（代表三维晶体中的一条线，D = 1），都发生了抽动。在LaAlO_3中，集体雪崩的能量指数的实验幂律指数为〜-2，对于弹性反应函数，实验幂律指数为〜1.3，对于前进的针状域，实验幂律指数为-1.8。

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《Conference on Phase Transformations in Inorganic Materials;PTM》|2012年|p.3-12|共10页
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E.K.H.Salje;
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中图分类工程材料一般性问题;
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domain boundaries; twin walls; martensites; ferroelastic; co-elastic; avalanches; energy exponents;

机译：领域边界;双壁马氏体铁弹性共弹性雪崩能量指数;

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Interfacial Properties and Critical Avalanche Exponents of Shape Memory Alloys and Related Materials

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