Optimal economic tool regrinding with Taguchi's quality loss function.: An article from: Engineering Economist
Book Details
Author(s)Y.V. Hui, L.C. Leung
ISBN / ASINB00092XHSG
ISBN-13978B00092XHS3
AvailabilityAvailable for download now
Sales Rank15,409,233
MarketplaceUnited States 🇺🇸
Description
This digital document is an article from Engineering Economist, published by Institute of Industrial Engineers, Inc. (IIE) on June 22, 1994. The length of the article is 5618 words. The page length shown above is based on a typical 300-word page. The article is delivered in HTML format and is available in your Amazon.com Digital Locker immediately after purchase. You can view it with any web browser.
From the author: One of the major cost components in tool economics is the cost incurred due to deviation in workpiece quality as a result of poor tool-cutting conditions. Commonly, the operating conditions of a cutting tool may be restored via regrinding during periodic intervals of the tool's life. This paper proposes that optimal regrinding interval ought to be determined with respect to the optimal number of regrindings. The product of these two values defines the economic life of a tool. The objective function is the minimization of the sum of the expected costs of failure, regrinding, tool purchase, machining, and deviation in workpiece quality. The cost of deviation in workpiece quality is modelled using Taguchi's loss function. The effect of cutting speed on tool regrinding interval is also explored.
Citation Details
Title: Optimal economic tool regrinding with Taguchi's quality loss function.
Author: Y.V. Hui
Publication:Engineering Economist (Refereed)
Date: June 22, 1994
Publisher: Institute of Industrial Engineers, Inc. (IIE)
Volume: v39 Issue: n4 Page: p313(19)
Distributed by Thomson Gale
From the author: One of the major cost components in tool economics is the cost incurred due to deviation in workpiece quality as a result of poor tool-cutting conditions. Commonly, the operating conditions of a cutting tool may be restored via regrinding during periodic intervals of the tool's life. This paper proposes that optimal regrinding interval ought to be determined with respect to the optimal number of regrindings. The product of these two values defines the economic life of a tool. The objective function is the minimization of the sum of the expected costs of failure, regrinding, tool purchase, machining, and deviation in workpiece quality. The cost of deviation in workpiece quality is modelled using Taguchi's loss function. The effect of cutting speed on tool regrinding interval is also explored.
Citation Details
Title: Optimal economic tool regrinding with Taguchi's quality loss function.
Author: Y.V. Hui
Publication:Engineering Economist (Refereed)
Date: June 22, 1994
Publisher: Institute of Industrial Engineers, Inc. (IIE)
Volume: v39 Issue: n4 Page: p313(19)
Distributed by Thomson Gale
