7.4 Single Variable Searches

 

• For simple single value problems use derivatives and find the maxima/minima.

 

7.4.1 Example Problem

 

• As with most engineering problems we want to get the highest return, with the minimum investment. In this case we want to minimize costs, while increasing cutting speeds.

 

• EFFICIENCY will be the key term - it suggests that good quality parts are produced at reasonable cost.

 

• Cost is a primarily affected by,

- tool life

- power consumed

 

• The production throughput is primarily affected by,

- accuracy including dimensions and surface finish

- mrr (metal removal rate)

 

• The factors that can be modified to optimize the process are,

- cutting velocity (biggest effect)

- feed and depth

- work material

- tool material

- tool shape

- cutting fluid

 

• We previously considered the log-log scale graph of Taylor’s tool life equation, but we may also graph it normally to emphasize the effects.

 

 

• There are two basic conditions to trade off,

- Low cost - exemplified by low speeds, low mrr, longer tool life

- High production rates - exemplified by high speeds, short tool life, high mrr

*** There are many factors in addition to these, but these are the most commonly considered

 

 

 

• A simplified treatment of the problem is given below for optimizing cost,

 

 

 

 

• We can also look at optimizing production rates,

 

 

• We can now put the two optimums in perspective,