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The traditional Economic Production Quantity (EPQ) assumes that the replenishments are instantaneous and the rele vant cost only consists of setup cost, stock-holding cost of the finished goods and the purchasing cost of raw materials. As a manager of a manufactory, there is a problem that must be taken into consideration. If the establishment buys all of the raw materials at the beginning, the stock-holding cost for the raw materials should be accounted into the relevant cost. The main purpose of this paper will add the stock-holding cost of raw materials to the EPQ model. Base on this new modified EPQ model, two more useful models are established. One of the new models contains the reusable raw materials instead of the raw materials. The other one considers the stock-holding cost of the raw materials and the im perfect-quality items are considered. We present the optimal cycle length from each of these three models.

The EPQ model was developed by E. W. Taft [

There are three EPQ models concerning about the total relevant costs in this paper. The first EPQ model (called model 1) is based on Lin’s [

We are attempting to reduce the impact of environmental impairment and increasing competition capabilities of business by recycling the repair and waste disposal which were enthusiastically concerned in the past years. So the second EPQ model (called model 2) is based on model 1 and Richter’s [

The mathematical models developed in this study are based on the following definitions and assumptions.

: the annual total relevant cost per unit time;

: the annual total relevant cost containing reusable raw materials per unit time;

: the annual total relevant cost containing imperfect-quality items per unit time;

: the order size;

S: the setup cost;

: the production rate;

: the demand rate;

: the purchasing cost per unit raw materials;

: the reusable rate;

: the percentage of defective items in finished productions;

: the cycle length;

: the discount rate;

: the stock holding cost of raw materials per item per unit time;

: the stock holding cost of finished products per item per unit time;

: the screening rate;

: the unit screening cost;

: the selling price of unit imperfect-quality items;

: the screening time.

(1) Production rate P is greater than demand rate D(2) Production rate P and demand rate D are known and constant(3) Shortage is not allowed(4) A single item is considered,

(5),

(6)(7) The imperfect-quality items are sold at the end of the screening time(8) and.

There are three models considered in this paper.

Model 1: Using the total relevant cost per unit time to find the optimal cycle length (It is shown in

The annual total relevant cost TRC(T) consists of the following elements:

The ordering cost per unit time (1)

The total relevant cost per unit time can be expressed as follows:

The unique solution of above equation is

The optimal order quantity is

At time, the has a global minimum on

Ifthen

and

The optimal quantity of this model is the same as that of the traditional EOQ inventory model.

Model 2: Using the annual total relevant cost using 100% reusable raw materials to find the optimal solution (It is shown in

The topic of environmental protection in the world is enthusiastically concerned in recent years. So, by the recycle of the repair and waste disposal productions, we can reduce the impact to environment and increase the ability of competition in business. Also the amount of reused raw materials at the beginning is, then the amount of of usable raw materials can be got.

The annual total relevant cost with 100% reusable raw materials consists of the following elements:

The setup cost per unit time

The purchasing cost per order per unit time

The stock holding cost of raw materials per unit time

The stock holding cost of products per unit time

The total relevant cost per unit time can be expressed as follows:

And the first and second derivatives of are

and

respectively Set, then we have the following result:

The unique solution of above equation is

At time, the has a global minimum on since for all.

Model 3: Using the annual total relevant cost containing imperfect-quantity items to find the optimal cycle length (It is shown in

This is an EPQ model by accounting for fixed percentage imperfect-quality items and considering the issue that poor quality items were sold as a single batch with lower price than it of good quality items at the end of the screening time.

The annual total relevant costs consists of the following elements:

The ordering cost per unit time

The purchasing cost per order per unit time

The screening cost per unit time

The stock holding cost of raw materials per unit time

The stock holding cost of products per unit time

The money earned from selling the imperfect-quality items per unit time

The total relevant cost per unit time can be expressed as follows:

And the first and second derivatives of are

.

for all, respectively.

Set, and set

then we have the following result:

The unique solution of above equation is.

At the time of T^{***}, the has a global minimum on since for all.

Example 1. If we set the numbers as

then we have

Example 2. If we set the numbers as

then we have

In this paper, we add the stock-holding cost of raw materials into this EPQ model to obtain the optimal inventory policy. This is an idea about modifying the traditional EPQ model. To academic researches and practices, the stock-holding cost of raw material has been added to the EPQ model, the result of adding the stock-holding cost of raw materials into the EPQ model is more useful and practical.