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How do you calculate forging ratio? - Answers
The forging ratio is calculated by dividing the cross-sectional area of the billet (or workpiece) by the cross-sectional area of the finished part. It is expressed as a ratio, typically in the form of A1/A2, where A1 is the area of the billet and A2 is the area of the final product. A higher forging ratio indicates greater deformation of the material during the forging process, which can enhance mechanical properties. This ratio is important for determining the effectiveness and efficiency of the forging operation.
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How do you calculate forging ratio? - Answers
The forging ratio is calculated by dividing the cross-sectional area of the billet (or workpiece) by the cross-sectional area of the finished part. It is expressed as a ratio, typically in the form of A1/A2, where A1 is the area of the billet and A2 is the area of the final product. A higher forging ratio indicates greater deformation of the material during the forging process, which can enhance mechanical properties. This ratio is important for determining the effectiveness and efficiency of the forging operation.
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How do you calculate forging ratio? - Answers
The forging ratio is calculated by dividing the cross-sectional area of the billet (or workpiece) by the cross-sectional area of the finished part. It is expressed as a ratio, typically in the form of A1/A2, where A1 is the area of the billet and A2 is the area of the final product. A higher forging ratio indicates greater deformation of the material during the forging process, which can enhance mechanical properties. This ratio is important for determining the effectiveness and efficiency of the forging operation.
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