Strain Rate Concentration Factor for Round and Flat Test Specimens

机译：圆形和扁平试样的应变率浓度因子

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In this study, the strain rate concentration is considered for high speed tensile test, which is now being recognized as a standard testing method. To evaluate the impact strength of engineering materials, Izod and Charpy tests are unsuitable since they cannot control the impact speeds and therefore the testing results do not coincide with the real failure of real products. For smooth specimens, the strain rate can be determined from the tensile speed u/t and specimen length l as ε_(smooth) = u/tl. For notched specimens, however, the strain rate at the notch root ε_(notch) should be analyzed accurately. In this study, therefore, the strain rate concentration factor defined as K_(tε) = ε_(notch)/ε_(smooth) is studied with varying the notch geometry and specimen length for round and flat test specimens.

机译：在该研究中，考虑应变速率浓度用于高速拉伸试验，其现在被认为是标准测试方法。为了评估工程材料的冲击强度，Izod和Charpy测试是不合适的，因为它们无法控制冲击速度，因此测试结果与实际产品的实际失败不一致。对于光滑的样本，应变速率可以从拉伸速度U / T和样品长度L.（光滑）= U / TL。然而，对于缺口标本，应准确地分析缺口根ε_（缺口）处的应变速率。因此，在该研究中，研究了作为K_（Tε）=ε_（凹口）/ε_（平滑）的应变速率浓度因数，随着圆形和扁平试样的凹口几何形状和样品长度而变化。

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《International Conference on Fracture Fatigue and Wear》|2019年|819p|共9页
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作者
Nao-Aki Noda; Rei Takaki; Yunong Shen; Akane Inoue; Yoshikazu Sano; Yasushi Takase;
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中图分类 TB301-53;
关键词
Dynamic stress; Notch; Strain rate concentration factor; Polycarbonate; Time-temperature superposition principle; Notched specimen;

机译：动态应力;缺口;应变率浓度因子;聚碳酸酯;时间温度叠加原理;缺口标本;

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专利

1. Stress concentration factors for round and flat test specimens with notches [J] . N.-A. Noda, M. Sera, Y. Takase International Journal of Fatigue . 1995,第3期

机译：带缺口的圆形和扁平试样的应力集中系数
2. Strain rate concentration factor for flat notched specimen to predict impact strength for polymeric materials [J] . Noda Nao-Aki, Takaki Rei, Shen Yunong, Mechanics of materials . 2019,第APRa期

机译：平坦缺口样品的应变率集中系数可预测聚合物材料的冲击强度
3. Strain rate concentration factor for flat notched specimen to predict impact strength for polymeric materials [J] . Noda Nao-Aki, Takaki Rei, Shen Yunong, Mechanics of materials . 2019,第Apra期

机译：扁平切口试样的应变率浓度因子预测聚合物材料冲击强度
4. Strain Rate Concentration Factor for Round and Flat Test Specimens [C] . Nao-Aki Noda, Rei Takaki, Yunong Shen, International Conference on Fracture Fatigue and Wear . 2019

机译：圆形和扁平试样的应变率浓度因子
5. The Application of Distributed Optical Sensing to Measure the Full-Field Strain Response of Uniaxial Compression Test Specimens [D] . Hegger, Shawn Alexander. 2021

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6. Strain Measurements within Fibre Boards. Part II: Strain Concentrations at the Crack Tip of MDF Specimens Tested by the Wedge Splitting Method [O] . Gerhard Sinn, Ulrich Müller, Johannes Konnerth, 2012

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7. Strain rate concentration factor in comparison with stress concentration factor of a circumferential notch in a round bar specimen [O] . 野田尚昭, 赤木大地, 沈雨濃, 2017

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8. Simple-Beam Diameter Transducer for Tensile Testing of Round Specimens at Constant True Strain Rates [R] . Barrie, J. N. 1977

机译：简单光束直径传感器用于恒定应变率下圆形试样的拉伸试验

Strain Rate Concentration Factor for Round and Flat Test Specimens

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