이 論文은 마찰, 過多(reduntant)變形, 材料의 흐름의 方向 및 工具形狀과 같은 金屬加工의 重要因子에 대한 硏究에서 模型材의 應用을 論議하고 또한 模型技術이 適切히 應用될 수 있는 여러가지 金屬加工 過程을 살펴보았다. 實際的인 成型過程의 正確한 理論的 解析은 매우 어렵기 때문에, 이 論文은 過程要因 硏究를 위한 模型應用과 함께 成型荷重을 模型技術에 依하여 解析的으로 豫測할 수 있는 方法을 論하였다. 그리하여 strain-rate 從屬인 材料와 strain-hardening 材料의 應用을 위한 方程式이 얻어졌다.

This paper describes the analog application for the study of metalworking parameters, such as friction, redundant deformation, material flow direction and tool geometry. Also the various metalworking processes adaptable to the analog technique have been reviewed. Since the exact theoretical analysis of practical forming operation is most difficult, along with analog applications for the process parameter study, this paper describes analytically how the forming load can be estimated by the analog technique. The equations for the application of the strain rate dependent materials and the strain hardening materials mere obtained. A powerful tool in metalforming research and development is the use of analog technique by which the study of various metalworking processes and their porameters possible with reasonable expenditure. Also it appears that the forming loads for steady state processes can be determined from the analog technique. The analog study provides a means of determining the average strain rate for strain rate dependent materials and the average strain for strain hardening materials.