The first result of the Logic
Tree is a task, in this chapter we go to explain the different type of tasks that
we can implant it in our RCM program.

**On Condition Tasks**, they should be our first option. They are defined as periodic or continuous inspections that are designed to detect potential failure conditions and allow corrections prior to functional failures.

To develop an On Condition task, the following
questions must be addressed:

· What
is Functional Failure? It can normally be obtained from the RCM analysis;
however, the additional definition of clarification related to the specific failure
mode may be required during the development of the On Condition task.

· What
is the Potential Failure? It can be obtained from a study of the equipment work
and environmental conditions.

· What
is the Potential Failure to Functional Failure (PF) interval; is it consistent?
It can be obtained from the P-F Curve.

P-F Curve, from NASA RCM Guide, Reliability-Centered
Maintenance Guide, for facilities and collateral equipment. Page 4-2. |

· Can
a task interval be developed that ensures the probability of failure is at an
acceptable level (considering the consequences of the failure mode)? We can
calculate the interval given the chance to develop in Functional Failure, according
to the formulas:

*R(t)*is the Reliability Function, it gives the probability of an item operating for a certain amount of time without failure. It is a function of time

*t*and of failure rate

*l*.

*R(t)*is the Reliability Function, it is a function of time

*t*, of the scale parameter

*h*, that indicate the life of the equipment, and of the shape parameter

*b*, that indicate the failure rate distribution.

· Is it feasible to perform a predictive technique in that time slot? To choose the predictive task we can help
further guidance provided by
NASA.

We can calculate the costs to implant on condition
tasks, considering the cost of inspection and the probability of not detect a
potential failure, according to the formula:

C

_{oc}= C_{f}X P_{f}+ C_{tc}+ (C_{tc}+ C_{f}) X P_{fc }X P_{f}*C*is the cost of the on conditions maintenance,

_{oc}*C*is the cost of the failure,

_{f}*P*is the probability of failure during the task interval,

_{f}*C*is the cost of the on condition task, and

_{tc}*P*is the probability that the on condition task doesn’t avoid the failure.

_{fc}

Predictive techniques application, from NASA RCM
Guide, Reliability-Centered Maintenance Guide, for facilities and collateral
equipment. Page 6-2. |

**Time-Based Tasks**, they consist of regularly scheduled tasks, and

**Failure Finding Tasks**that consist of techniques to find hidden failures. We go to study them together because they are performed without regard to equipment condition.

The elements of a Time Based Maintenance are:

1.

*Lubrication*/*Servicing:*Cleaning, lubricating, charging, preservation, etc., of items/materials periodically to prevent the occurrence of incipient failures. It can be considered a failure in finding a task.
2.

*Testing (Operational, Visual, and Automatic):*Periodically testing or checking out to determine serviceability and detect electrical/mechanical-related degradation. It can be considered a failure finding task.*3. Inspection / Functional Test:*Periodically inspecting materials/items to determine their serviceability by comparing their physical, electrical, mechanical, etc., characteristics (as applicable) to expected standards. It can be considered a failure finding task.

4.

*Restoration:*Periodically tasks to restore the design conditions of an item, it can include cleaning some elements a full overhaul.
5.

*Installation:*Periodic replacement of limited-life items or the items experiencing time cycle or wear degradation, to maintain the specified system tolerance.
Also, we can calculate the optimum maintenance
interval based on the failure rate that we need to keep, according to the formula:

Exponential distribution, with failure rate

*l*constant, the time-based maintenance is not recommended because to define the maintenance interval is not definable.
Finally, we can calculate the time-based maintenance
costs, considering the cost of the task, the risk of failure due to the task and
the probability of failure during the maintenance interval, according to the
formula:

C

_{tb}= C_{f}X P_{f}+ C_{tp}+ C_{f}X P_{fp}+ (C_{tp}+ C_{f}) X P_{ft }X P_{f}*C*is the cost of time-based maintenance,

_{tb}*C*is the cost of failure,

_{f}*P*the probability of failure during the maintenance interval,

_{f}*C*is the cost of the preventive task,

_{pt}*P*is the probability of failure due to the preventive task, and

_{pf}*P*is the probability of the preventive task doesn’t avoid failure.

_{ft}

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