Study of statistical and technological size effects in cast brass

Results in Materials Pub Date : 2025-08-28 DOI:10.1016/j.rinma.2025.100756

Martin Benedikt Klaushofer, Michael Stoschka, Bernd Maier, Florian Grün

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Abstract

This study aims to quantify the effect of grain size and specimen volume on the static and fatigue strength of the cast brass alloy CuZn35Mn2Al1Fe1-C-GS. Specimens were extracted from a large cast component, where variations in cooling rates resulted in grain sizes ranging from about 1 mm (fine-grained) to 9 mm (coarse-grained). To evaluate the statistical size effect, tensile and uniaxial fatigue tests under pulsating tension were performed on specimens with different highly stressed volumes. Fine-grained specimens showed up to a 34% increase in fatigue strength and a 19% increase in tensile strength compared to coarse-grained ones. Similarly, smaller specimens outperformed larger ones, with fatigue strength improvements of about one-third, dependent on the microstructure. The Hall-Petch relation was used to quantify the influence of grain size, and further incorporated into a volumetric statistical size effect model. The Weibull exponent is expressed as a function of grain size and highly stressed volume, thus extending design recommendations such as the FKM-guideline towards size effects in cast brass alloys.

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铸造黄铜的统计和工艺尺寸效应研究

本研究旨在量化晶粒尺寸和试样体积对铸黄铜合金CuZn35Mn2Al1Fe1-C-GS静态强度和疲劳强度的影响。样品是从一个大型铸造部件中提取的，其中冷却速率的变化导致晶粒尺寸从约1毫米（细晶）到9毫米（粗晶）不等。为了评估统计尺寸效应，对不同高应力体积的试样进行了脉动拉伸和单轴疲劳试验。与粗晶试样相比，细晶试样的疲劳强度提高了34%，抗拉强度提高了19%。同样，根据微观结构的不同，较小的试样的疲劳强度提高了约三分之一。采用Hall-Petch关系量化颗粒尺寸的影响，并进一步纳入体积统计尺寸效应模型。威布尔指数表示为晶粒尺寸和高应力体积的函数，从而扩展了设计建议，如fkm指南，针对铸造黄铜合金的尺寸效应。

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来源期刊

Results in Materials

CiteScore

5.30

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0.00%

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