QUANTITATIVE EVALUATION OF CRYSTALLOGRAPHIC TEXTURE IN ALUMINUM ALLOY BUILDS FABRICATED BY VERY HIGH POWER ULTRASONIC ADDITIVE MANUFACTURING

机译：超高功率超声增材制造制造的铝合金建筑中晶体结构的定量评估

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Very high power ultrasonic additive manufacturing (VHPUAM) has shown good bond quality over traditional ultrasonic consolidation processes. However, the stability of microstructure in bulk and interface regions is unknown. Our earlier research showed a large difference in grain growth kinetics between bulk and interface regions. Therefore, we have performed in-situ studies of crystallographic texture evolution using a neutron beam line, before, during, and after heat treatment at 343°C for 2 hours. Shear texture in the as-received condition was found to be stronger with higher vibration amplitudes. We also observed rapid reduction of rolling textures in the initial material and presence of shear textures even after heat treatment.

机译：与传统的超声波固结工艺相比，超高功率的超声波增材制造（VHPUAM）已显示出良好的粘结质量。然而，在主体和界面区域的微观结构的稳定性是未知的。我们较早的研究表明，主体区域和界面区域之间的晶粒长大动力学差异很大。因此，我们在343°C热处理2小时之前，之中和之后，使用中子束线进行了晶体学织构演化的原位研究。发现在较高的振动幅度下，按原样的剪切质地会更强。我们还观察到即使在热处理后，初始材料中轧制织构的迅速减少和剪切织构的存在。

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《Annual international Solid Freeform Fabrication symposium》|2012年|364-372|共9页
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K. Sojiphan; S.S. Babu; X. Yu; S.C. Vogel;
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QUANTITATIVE EVALUATION OF CRYSTALLOGRAPHIC TEXTURE IN ALUMINUM ALLOY BUILDS FABRICATED BY VERY HIGH POWER ULTRASONIC ADDITIVE MANUFACTURING

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