The simultaneous consideration of maintenance policies and production planning and control has recently become an important research area. Abdelnour et al. [ABD 95] studied the effect of maintenance policies on just-in-time production systems. Some studies have examined the conditions of building buffer stocks to guarantee the continuous supply of the subsequent production unit during the interruptions of service due to repair or preventive maintenance. Van der Duyn Schouten and Vanneste [VAN 95] proposed a preventive maintenance policy for two machines and one buffer between them, based not only on the age of the machine but also on the size of the buffer, which are both used to determine when to perform a preventive maintenance action. Meller and Kim [MEL 96] studied the impact of a preventive maintenance policy on a two-machine system with a fixed-capacity buffer between the machines. They suppose in their model that the machines’ failure rates are constant and that repair time is exponentially distributed and preventive maintenance actions are known at constant duration. Chan [CHA 01] developed a simulation model to evaluate the performance of a production line in the presence of several maintenance strategies. Rempelmeier [REM 01] considered the performance evaluation of a non-homogeneous production system taking into account the maintenance parameters and the quality of the manufactured products. Chelbi and Ait- Kadi [CHE 04] developed an analytical model to determine both the buffer stock size and the preventive maintenance period for an unreliable production unit, which is submitted to regular preventive maintenance of random duration.

Other related works appearing in the literature include [GRO 92a] and [GRO 92b], which simultaneously investigated the lot sizing of the buffer stock under the contrast of the machine breakdowns. In the same context, Cheung and Hausmann [CHE 97] proposed through their study a simultaneous optimization of strategic stock and the policy of maintenance of the age type. Later, Gharbi and Kenne [GHA 00] and Kenne and Gharbi [KEN 01] considered the ordering of the flow of production and the preventive maintenance by using the Markovian model. Recently, Chelbi and Rezg [CHE 06] developed an integrated study of production and inventory applied on a system with random failing subjected to a minimum required availability level.

The present study focuses on a joint policy of maintenance and inventory control for a repairable production unit subject to random failures, which supplies input to a subsequent unit operating according to a just-in-time configuration. The production unit is submitted to a maintenance action as soon as it reaches a certain age m or at failure, whichever occurs first. According to the proposed strategy, a buffer stock h is built-up at the maximum production rate at time A from the start of a production cycle, and not from the beginning of the cycle as is commonly supposed in the related literature. This buffer is developed to hedge against potential future capacity shortage during repair or planned maintenance actions whose respective durations are random. Once the inventory level reaches h, one should produce exactly enough to satisfy the demand.

We develop a mathematical model allowing the simultaneous consideration of the following three decision variables: the threshold inventory level h, the preventive maintenance critical age m and the inventory buildup start time A. The objective is to minimize the total expected cost per time unit including maintenance and inventory related costs, under the constraint of a minimum required stationary availability level of the production unit. We also propose a numerical procedure to generate the optimal values of the decision variables for any given set of input parameters.

The remainder of the chapter is organized as follows: section 1.2 presents the description problem and used notation. section 1.3 is dedicated to the development of the analytical model. section 1.4 presents the optimization phase. A numerical example and sensitivity study are studied in sections 1.5 and 1.6. Some con...