Deck 16: Maintenance and Reliability

If the mean time between failures has been calculated to be 2,000 hours, then FR(N) = 0.005 failures/unit-hour.

Reliability is the probability that a machine part or product will function properly for a specified time regardless of conditions.

The Orlando Utilities Commission uses a computerized maintenance management program and devotes significant dollar and labor resources to power plant maintenance, because the costs of unexpected failure are incredibly high.

Describe how the Orlando Utilities Commission obtains competitive advantage through its maintenance practices.

Define reliability.

Define maintenance.

The MTBF (mean time between failures) is calculated as the reciprocal of the number of failures during a period of operating time.

________ is the probability that a machine part or product will function properly for a specified time under stated conditions.

________ consists of all activities involved in maintaining capability of the system.

Maintenance includes all activities involved in maintaining capability of the system.

At the Orlando Utilities Commission, overhauls are scheduled for summer and winter.

Identify the two reliability tactics and the two maintenance tactics.

The product failure rate FR(%) is the percent of failures among the total number of products tested.

The reliability of a system in which each individual component must function in order for the entire system to function, and in which each component has its own unique reliability, independent of other components, is the sum of the probabilities of each of those components.

The reliability tactics include implementing or improving preventive maintenance as well as increasing repair capabilities or speed.

Adding an additional part to a component or product ordinarily reduces reliability by introducing an additional source of failure.

A redundant part or component increases reliability because it is connected in parallel, not in series.

A redundant part decreases reliability if the reliability of the redundant part is lower than that of the part it is backing up.

Ten high-intensity bulbs are tested for 100 hours each. One failed at 10 hours; all others completed the test. Calculate FR(%), FR(N) and MTBF.

Explain carefully how redundancy improves product reliability.

A product is composed of a series connection of four components with the following reliabilities. What is the reliability of the system?

A system has 12 components in series. Each component has a reliability of 0.95. What is the reliability of the system?

Century Digital Phone advertises phone battery life (on standby) of up to three days. The standard deviation is thought to be five hours. Tina Talbot, an employee at CDP, tested 40 of these batteries for 72 hours. One failed at 39 hours; one failed at 62 hours; one failed at 70 hours. All others completed the test. Calculate FR(%), FR(N), and MTBF.

What is the impact on system reliability of adding parts or components in parallel?

________ is the expected time between a repair and the next failure of a component, machine, process, or product.

The diagram below identifies the elements of service as provided by a soft drink vending machine. Each element has an estimate of its own reliability, independent of the others. What is the reliability of the "system"?

A system consists of four components in series. The reliability of each component is 0.96. What is the reliability of the system?

The inverse of the mean time between failures is the ________.

A system has four components in a series. What is the reliability of the system?

Ten high-intensity bulbs are tested for 100 hours each. One failed at 40 hours; another failed at 70 hours; all others completed the test. Calculate FR(%), FR(N), and MTBF.

________ is the use of a component in parallel to raise reliabilities.

"High reliability can be achieved in a product without having high reliability in the component parts. In fact, any reliability target, no matter how high, can be achieved with only mediocre parts, so long as enough of them are present." Discuss; an example may help.

The Everstart is a battery with an intended design life of 72 months. Stephanie Bradley recently put five of these batteries through accelerated testing (the company couldn't wait six years) to simulate failure patterns. The test results had one failure at 26 months, one failure at 32 months, one failure at 50 months, and one failure at 62 months. Calculate FR(%), FR(N), and MTBF.

Increasing the number of parts or components in a product tends to reduce its reliability. Why is this true only when adding components in series?

What is FR(N)? How is it calculated? How are FR(N) and MTBF related?

Twenty high-intensity bulbs are tested for 100 hours each. One failed at 80 hours; one failed at 90 hours; all others completed the test. Calculate FR(%) and FR(N).

The academic service commonly referred to as "registration" consists of several smaller components: advising, registration for courses, fee assessment, financial aid calculations, and fee payment. Each of these modules operates independently and has some probability of failure for each student. If the five probabilities that accompany these services are 95%, 90%, 99%, 93%, and 99%, respectively, what is the "reliability" of the entire product from the student's perspective, i.e., the probability that all five will work according to plan?

When identifying the optimal maintenance policy, the cost of inventory maintained to compensate for the downtime is a cost often ignored.

The MTBF distributions of products, machines, or processes that have "settled in," or gone beyond the infant mortality phase, often follow the exponential distribution.

Suppose that a three-stage process in a nuclear reactor had reliability ratings of .98 at each station and that only one stage needed to be successful for the process to work. If the plant wants to establish 6-sigma standards (≤ 3.4 defects per million), what % reliable redundant controls need to be added to each station?

Electronic sensors have proven so effective that preventive maintenance is no longer necessary.

Suppose that a three-stage process had reliability ratings of .7, .8, and .9 at each station and that a failure at any station represented a failure for the entire process. If each station is given a redundant check with the same reliability as the original component, what is the increase in system reliability?

A component must have reliability of .999. Two technologies are available for this component: one produces a component with .999 reliability at a cost of $3000. Another produces a component with .75 reliability at a cost of $500. Which is cheaper: one high quality component or a parallel set of inferior components?

Infant mortality refers to the high failure rate often encountered in the early stages of the lifetime of a product.

A product has four components A, B, C, and D. The finished product must have a reliability of at least .95. The first three components come from a supplier, and they have reliabilities of .99, .98, and .995, respectively. The fourth component is being designed now. What must the reliability of component D be in order to meet the product reliability condition?

A product has three components X, Y, and Z. Product X has reliability of 0.991, and Y has reliability of 0.993. If Z has reliability of 0.991, what is the reliability of the entire product? Can Z be redesigned to be reliable enough for the entire product to have reliability of 0.99? Explain.

The "full cost view of maintenance" results in more firms choosing a policy of breakdown maintenance, when compared to the "traditional view of maintenance."

Preventive maintenance implies that machine sensors to detect variations from normal are inadequate.

A simple electrical motor has three components: windings, armature, and housing. These three components have reliabilities of .993, .95, and .999. There is no possibility of redundant parts. The motor must have an overall reliability of at least 0.980, according to the product line manager who will use the motor as an input. What would you do to redesign the motor to meet this specification? Discuss, including a recalculation to meet the standard.

Small standard deviations in the MTBF distribution of a machine tend to support a policy of preventive maintenance for that machine.

Preventive maintenance implies that we can determine when a system needs service or will need repair.

An optimal maintenance policy strikes a balance between the costs of breakdown and preventive maintenance so that the total cost of maintenance is at a minimum.

Preventive maintenance is reactive.

Recording the maintenance history of processes, machines, or equipment is important for preventive maintenance, but largely irrelevant for breakdown maintenance.

General Grant must send orders to General Butler. Carrier pigeons are the medium of choice. A single pigeon has a .7 probability of arriving at the proper destination in a timely fashion. How many pigeons, each carrying an identical set of orders, must Grant send in order for him to have 98% confidence that the orders reached General Butler?

A simple electrical motor has three components: windings, armature, and housing. These three components have reliabilities of .9998, .9992, and .9999. There is no possibility of redundant parts. What is the reliability of the motor? Round your answer to four decimal places.

Preventive maintenance is nothing more than keeping the equipment and machinery running.