Shear Modulus and Internal Friction in a Cu–0.17% Zr Alloy and Pure Copper Subjected to Equal-Channel Angular Pressing

E. L. Kolyvanov; N. P. Kobelev; Yu. Estrin

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Shear Modulus and Internal Friction in a Cu–0.17% Zr Alloy and Pure Copper Subjected to Equal-Channel Angular Pressing

机译：等通道角挤压下Cu–0.17％Zr合金和纯铜的剪切模量和内摩擦

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The effect of temperature on the shear modulus and low-frequency internal friction of pure cop- per and a Cu–0.17 wt % Zr alloy subjected to equal channel angular pressing (ECAP) is studied in the tem-perature range 100–550 K. In both materials, ECAP significantly decreases the shear modulus. It is found that the temperature dependences of the shear modulus of the alloy and pure copper are qualitatively similar and those of the internal friction are markedly different. Possible mechanisms responsible for the anomalous behavior of the elastic moduli and internal friction in the materials subjected to ECAP are discussed.

机译：研究了温度对100-550 K温度范围内纯铜和经等通道角挤压（ECAP）的Cu-0.17 wt％Zr合金的剪切模量和低频内摩擦的影响。在两种材料中，ECAP均会显着降低剪切模量。发现合金和纯铜的剪切模量的温度依赖性在质量上相似，而内部摩擦的温度依赖性则显着不同。讨论了造成ECAP的材料中弹性模量和内部摩擦异常的可能机理。

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《Russian Metallurgy(Metally)》 |2011年第2期|共6页
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E. L. Kolyvanov; N. P. Kobelev; Yu. Estrin;
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1. 超高压下凝固Mg−Zn−Cu−Zr−Ca合金的组织细化与强化机制 [J] . 林小娉, 阔洋, 王林, 中国有色金属学报：英文版 . 2021,第006期
2. Shear Modulus and Internal Friction in a Cu–0.17% Zr Alloy and Pure Copper Subjected to Equal-Channel Angular Pressing [J] . E. L. Kolyvanov, N. P. Kobelev, Yu. Estrin Russian Metallurgy(Metally) . 2011,第2期

机译：等通道角挤压下Cu–0.17％Zr合金和纯铜的剪切模量和内摩擦
3. Shear Modulus and Internal Friction in a Cu-0.17% Zr Alloy and Pure Copper Subjected to Equal-Channel Angular Pressing [J] . E. L. Kolyvanov, N. P. Kobelev, Yu. Estrin Russian Metallurgy(Metally) . 2011,第4期

机译：等通道角挤压下Cu-0.17％Zr合金和纯铜的剪切模量和内摩擦
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Shear Modulus and Internal Friction in a Cu–0.17% Zr Alloy and Pure Copper Subjected to Equal-Channel Angular Pressing

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