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Acoustical and Optical Determination of Mechanical Properties of Inorganically-Bound Foundry Core Materials

机译：声学和光学测定无机结合铸造芯材的机械性能

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摘要

Inorganically-bound sand cores are used in many light-metal foundries to form cavities in the cast part, which cannot be realised by the mould itself. To enable FEM simulations with core materials, their mechanical properties have to be measured. In this article, we adapt methods to determine the Young’s and shear modulus, the Poisson ratio and the fracture strain of sand cores. This allows us to fully parametrise an ideal brittle FEM model. We found that the Young’s and shear modulus can be obtained acoustically via the impulse excitation technique. The fracture strain was measured with a high-speed camera and a digital image correlation algorithm.

机译：在许多轻金属铸造厂中，使用无机结合的砂芯在铸件中形成型腔，而模具本身无法实现这种型腔。为了对核心材料进行FEM仿真，必须测量其机械性能。在本文中，我们将采用各种方法来确定杨氏模量和剪切模量，泊松比以及砂芯的断裂应变。这使我们能够对理想的脆性有限元模型进行完全参数化。我们发现可以通过脉冲激励技术以声学方式获得杨氏模量和剪切模量。用高速照相机和数字图像相关算法测量断裂应变。

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期刊名称 Materials
作者
Philipp Lechner; Georg Fuchs; Christoph Hartmann; Florian Steinlehner; Florian Ettemeyer; Wolfram Volk;
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作者单位

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年(卷),期 2020(13),11
年度 2020
页码 -1
总页数 11
原文格式 PDF
正文语种
中图分类外科学;
关键词
inorganic sand core materials; elastic properties; fracture strength; fracture strain; water-glass; 3-point-bending; Young’s modulus; shear modulus; Poisson’s number;

机译：无机砂芯材料;弹性性能;断裂强度;断裂应变;水玻璃;三点弯曲;杨氏模量;剪切模量;泊松数;

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2. DETERMINATION OF ELECTRICAL PROPERTIES OF MATERIALS USED IN MICROWAVE HEATING OF FOUNDRY MOULDS AND CORES [J] . Opyd B., Granat K., Nowak D. Metalurgija . 2015,第2期

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4. Determination of mechanical properties of layered materials with vector-contrast scanning acoustic microscopy by polar diagram image representation [C] . E. T. Ahmed Mohamed, A. Kamanyi, M. von Buttlar, Conference on Health Monitoring of Structural and Biological Systems . 2008

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8. Sandwich Construction and Core Materials. Part V. SECTION I Some Physical Properties of an Extruded Cellular Cellulose Acetate SECTION II The Determination of Poisson's Ratio in Compression of Certain Low Density Materials [R] . W. J. PULLEN 1952

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Acoustical and Optical Determination of Mechanical Properties of Inorganically-Bound Foundry Core Materials

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