The Optimal Inventory Policy of Production in View ofthe Holding Costs for Raw Materials

• Main Authors: Jaw-Huan Chang, 張肇煥
• Other Authors: Shy-Der Lin
• Format: Others
• Language: zh-TW
• Published: 2011
• Online Access: http://ndltd.ncl.edu.tw/handle/52078830464995773553

碩士 === 中原大學 === 企業管理研究所 === 99 === Abstract In current inventory-management environment, enterprise must pay much attention to the raw materials on stock-holding cost which is always ignored, in order to sustain, thereby acquiring better financial conditions to create new business opportunities, i.e. reducing cost to allocating funds more effectively. The mode of economic production quantity (EPQ), the major increase of raw material inventory holding costs of the part of the establishment of strategic raw materials inventory model. Therefore, the cost model of production operations covering: production operations set-up costs and holding costs of raw materials and production stage inventory holding costs and inventory holding costs of finished goods of research. In this study, the production cost of inventories and total related costs with the model is divided into two categories: first category (reference chapter third), the rate of adverse construction-related manufactured goods excluding inventory model; the other (chapter four), production operations produce adverse rate, increased rate of purchase of bad material inventory model. Participation in the four and third chapters are a inventory model to calculate the best time of the operating cycle, and the per unit time of production on total related costs, so managers need to find these models to optimize inventory. Finally, the two inventory model values listed in Example, and the table had shows the value of the relationship between the two modes, for comparative analysis. This example showed up that the difference between the two models, but seeks the best operating cycle and the best order quantity, no significant differences. Therefore, the data analysis then managers can choose the most appropriate model, as a production inventory management(EPQ)decision.