Does not imply overall reliability. This chapter addresses all causes of diminished or degraded output. Even with greater awareness and understanding of ERM and sufficient good data to convince top management of its value, a serious deficit in the technical skills infrastructure required to implement an effective ERM program would still have to be overcome. Use of standard parts: There should be maximum possible standard parts in the design of the machine. While they are generally effective, these practices have been considerably enhanced by state-of-the-art maintenance planning, management, and implementation technologies that incorporate information on equipment design, application, and operation. Reliability is extremely design-sensitive. tomer demands or regulatory influences, are forced overseas in their search for suppliers who are willing to quantify machine reliability and to work to meet ERM goals. The repair and maintenance of the machine should be easy and cheap and simple replacements should be available. Operational changes that will enhance ERM must be identified. FIGURE 3-5 For photolithography, attempts to increase mean time between failures have yielded a 30% increase in availability and an approximately 30% decrease in area throughout, while achieving a 10% reduction in total fabrication throughput time. Initial emphasis was on detecting problems before they became serious enough to force outages. This factor is called the safety factor. The recent rush to embrace computer-integrated manufacturing (CIM) has further increased the use of relatively unknown and untested technology. More importantly, the important maintenance issues do not surface. A conservative specification of rated capacity, however, can yield misleading data for equipment performance. The term artificial intelligence is appearing in sales literature that increasingly is offering catalog solutions as alternatives to technical proficiency. In Japan, for instance, many firms are engaged in a 10-year program to upgrade predictive maintenance to the point where ERM becomes the responsibility entirely of operators. This would be helped greatly by a competitiveness assessment that reflects ERM differentials. To maintain competitiveness in the emerging global economy, U.S. manufacturing must rise to new standards of product quality, responsiveness to customers, and process flexibility. Equipment design employs new approaches that use broader data bases. Development of systematic, disciplined methodologies that will enable manufacturers to communicate equipment requirements in clear operational terms. tenance and reliability program is to deliver a proper balance of maintenance activities — primarily those aimed at iden-tifying impending failures — to allow for timely corrective actions. Do you want to take a quick tour of the OpenBook's features? Just-in-time (JIT) is a method of manufacturing by which parts and assemblies are made or delivered as needed, thereby greatly reducing inventory. Managers with this understanding can take a plant beyond the benefits of JIT to realize the potential benefits of ERM. Industrywide collections of such information will facilitate sharing of technical data—both ERM statistics and qualitative information about the relative effectiveness of different techniques—and help pinpoint areas where improvement is essential to global competitiveness. In test taking, as in many other activities, most people perform better on some days than on others. Dies are cleaned and lubricated routinely, and repairs are completed to original specifications before problems become major. © 2020 National Academy of Sciences. View our suggested citation for this chapter. To evaluate the cost of machine downtime, one must first know a machine 's value per unit of time, which can be obtained through a variety of methods related to capacity utilization (see definition of theoretical capacity on p. 55). The goal of the strategy is to eliminate the six main downtime losses: losses from setup time associated with periodic changes and adjustments of tools and dies; losses that result from idling, minor stoppages induced by sensors, and blockages of work in chutes; losses attributable to differences between actual and design speeds of equipment; process-related losses associated with defects and reworking; and. Improving the design in this direction is very important. Manufacturing engineering and software training programs are badly needed. Technology of MachineTools, Machine Tool Systems Management and Utilization. Science 245 (August 25): 819-823. These bridges outside the engineering school will help recast the industrial engineer of yesterday as the systems engineer of today. Factor of safety (FoS), also known as safety factor (SF), is a term describing the structural capacity of a system beyond the expected loads or actual loads. When a test has a reliability of 0.8, the number of items the test has to be lengthened to get a reliability of 0.95 is estimated in the following way: Hence the test is to be lengthened 4.75 times. We hear the term used a lot in research contexts, but what does it really mean? A Strategic Industry at Risk. 1980. Identification of operational changes to enhance ERM. This is the series of articles on Machine Design or Mechanical Design. Firms that do value ERM, typically driven by powerful cus-. The main purpose of reliability testing is to check whether the software meets the requirement of customer's reliability. It also can shorten lead times by reducing downtime and the need for retooling. By increasing uptime and yields of good parts, ERM can reduce capital requirements, thereby cutting total production costs. The problem needs to be viewed in its totality, with a balanced emphasis on human and technological issues and barriers. As the shafts transmitting power are subjected to fatigue loading, therefore higher factor of safety of 3 to 4 is used on the basis of yield strength for static load analysis. Lacking strength in manufacturing systems engineering, many plants rely on system integrators distinct from the equipment builders to configure their manufacturing systems. Japanese companies that have excelled in this area characteristically have the ability to develop and produce their own equipment. 6–17 assumption. yield losses that occur between start-up and steady production. Sign up for email notifications and we'll let you know about new publications in your areas of interest when they're released. Important characteristics of reliability are as follows: 1. Needed is a production monitoring system capable of providing information about all machine shutdowns, classifying discrete events, and aggregating these events within categories. Several tests are required at each load level to account for the statistical nature of the failure mechanism. The design, construction, maintenance, adjustment, calibration, and use of measuring and of manufacturing equipment are factors which impact on the reliability of the product. Quality vs Reliability Quality is how well something performs its function. One need is a checklist of procurement practices that will ensure that reliability, or lack of it, is recognized in specific equipment. 3. Preventive maintenance practices in this industry evolved by trial and error. In many companies, the capital approval process specifies different levels of authorization depending on the size of the request. The actual uptime of a resource as a percentage of its expected uptime. This adds up to important savings because the base cost of many types of equipment exceeds $1 million per unit. At the early design stage, Reliability Predictions enable you to perform an assessment of likely failure rate characteristics. Given customer preoccupation with initial cost and technical features, equipment is frequently designed to perform specific tasks within the constraints of an acquisition budget, with little regard for optimizing economic performance over its lifetime. A better job of debugging these systems via simulation, analysis, and rapid development needs to be done. This is a calculated value, and is sometimes referred to, for the sake of clarity, as a realized factor of safety. For example, the mouse on your computer might have a reliability of 0.990 (or 99%) over the next 1000 hours. Switch between the Original Pages, where you can read the report as it appeared in print, and Text Pages for the web version, where you can highlight and search the text. Few U.S. manufacturers have programs that provide white collar staff with exposure and experience in the actual manufacturing process. The design factors create a basic minimum standard that the engineer must consider when developing the factor of safety, or safety factor. throughout the life of the product with low overall life-cycle costs. The panel has ranked research needs in ERM within two broad categories. Cost models associated with short-term measures, which rapidly drive future costs to zero in a present value analysis using a relatively high rate of return, lead managers to emphasize initial purchase price in equipment acquisition. This approach should delineate basic principles that are demonstrably effective and universally applicable. (excerpt from: Kaplan, R. S. 1986. Reliability testing will be performed at several levels. No produce can be manufactured without designing it. The techniques that comprise design for reliability include (1) failure modes and effects analysis, (2) robust parameter design, (3) block diagrams and fault tree analyses, (4) physics-of-failure methods, (5) … The main reliability design analysis technique described 1.Quality function deployment 2.Reliability prediction 3.Load-strength analysis 4.Failure modes, effects and critically analysis 5.Fault tree analysis 6.Hazard and operability study 7.Parts materials and process review 8.Others, including human aspects manufacturing, maintenance, etc.. 75. What are Machine Elements? Normal Operating Conditions:These are conditions, which let the system or product performs to the optimum level without stress. Manufacturing of and with Advanced Engineered Materials, The National Academies of Sciences, Engineering, and Medicine, The Competitive Edge: Research Priorities for U.S. Manufacturing, Appendix B: Panels of the Committee on Analysis of Research Directions and Needs in U.S. Manufacturing. The productivity of these investments is a fundamental element of competition among companies and nations. Register for a free account to start saving and receiving special member only perks. By predicting failure rates, you can then make design changes as needed for areas of weakness. The panel considers ERM to be a significant factor in the competitiveness of manufacturing firms, an assessment supported by the case studies in the section on present practice (pp. The best machine design is the one which helps get the finished product with all the major functionalities and highest possible quality at the lowest possible cost. Reliability engineering is a sub-discipline of systems engineering that emphasizes the ability of equipment to function without failure. 4. To assess the safety of a design, designers need a simple factor which will help in understanding if a design is safe enough. 6 6 6. There are two commonly used measures of reliability: * Mean Time Between Failure (MTBF), which is defined as: total time in service / number of failures Benefits of Intel's ERM program have included reduced cost per unit at each process step, as factory operations and support costs associated with downtime or slower area throughput time have been reduced. One factor that can influence a test score is the test taker’s alertness and concentration on the day of the test. Harvard Business Review 64(2): 87-95.). comparable, if not superior, to those produced by manufacturers of low volume, luxury cars. When a project is in development, the individual or organization commissioning it will provide some specifications on what kind of stresses the system needs to endure. They design processes for a theoretical or running capacity, which is calculated on the basis of a system's estimated efficiency. The charter of a U.S. plant maintenance institute might include: competitive assessment of ERM (United States versus other countries), research to improve ERM competitiveness and spread best practice, assistance to companies attempting to improve ERM, ERM training assistance, a forum for technology transfer, and recognition of companies that meet predefined ERM thresholds. With standard parts the design can be modified easily. An equipment life-cycle training course was developed to train new suppliers, manufacturing engineers, and procurement teams. Well-maintained machines hold tolerances better, help to reduce scrap and rework, and raise part consistency and quality. The unavailability of internship programs is a serious deficit in U.S. manufacturing. Some specific needs in these areas are addressed below. Ease and simplicity of servicing and control: The machine and its element should be simple enough so that very little maintenance and servicing is required. Japanese suppliers, in contrast, benefit from close customer technology exchange programs with leading Japanese semiconductor manufacturers. Because causal relationships are frequently hidden, repair is often time-consuming, expensive, and tedious. The U.S. facilities of Japanese automakers, using U.S. workers to operate three to five presses, often achieve at least twice the productivity of comparable U.S. facilities on a per-line or perpress basis. Given the opportunity cost of shutdown, such a system could calculate the benefit of reducing or eliminating each category of downtime. The Japanese have done it by adhering to the basic principles of motivation, commitment and understanding, and training and discipline. In addition, practices that will promote effective implementation and continuous improvement of ERM must be developed. Well-understood methods of directing the work of these technologists are needed, as are mechanisms for implementing the results they achieve. Additional capacity can be made available in many cases by increasing equipment utilization rates rather than by adding units of equipment. Their technology exchange programs today include concurrent engineering of next-generation equipment for new product and process requirements and replacement of Intel factory equipment engineering and maintenance staff with supplier personnel. Advanced engineered materials that offer the prospect of better life-cycle performance and other gains. Attainment of set performance levels by equipment is celebrated with the sipping of sake. ...or use these buttons to go back to the previous chapter or skip to the next one. Over time, a host of little investments, each of which delivers savings in labor, material, or overhead cost, can add up to a less-thanoptimal pattern of material flow and to obsolete process technology. Development of a standard methodology for measuring ERM. design trade-off between reliability and maintainability. A machine running 24/7 might experience the failure mode of fatigue as it nears the end of its life. Must CIM be justified by faith alone? Reliability: The reliability of the machine is a very important if the machine has to find the huge market in the business. How is the safety factor calculated. In fact, to the extent that they lead management to treat maintenance as an indirect cost that increases factory overhead, these systems may be putting the U.S. asset base at risk. FIGURES 3-3 and 3-4 Results in trial fabrication plants for both implanter equipment (1987-8) and wafer etch equipment (1988), with and without service contract, show a substantial increase in average monthly uptime and increased predictability by reducing the range of monthly uptime. Development of industry-wide collections of ERM data. You're looking at OpenBook, NAP.edu's online reading room since 1999. Events that slow or interrupt the manufacturing process or degrade the product impair the competitiveness of a manufacturing enterprise. Development of standards for design and test, for measuring and evaluating ERM, and for operator–equipment interfaces, would be a great facilitator in each of the areas discussed above. The design, construction, maintenance, adjustment, calibration, and use of measuring and of manufacturing equipment are factors which impact on the reliability of the product. In photolithography, attempts to increase mean time between failures have yielded a 30-percent increase in availability and an approximately 30-percent decrease in area throughput time while achieving a 10-percent reduction in total fabrication throughput time (Figure 3-5). Reliability Factor k e From Fig. Factor of safety is a ratio of maximum stress withstand by an object to applied stress. Processability: The shape and the materials for the elements of the machine should be such that they can the processing costs and labor costs are lowest possible. ning, the cost of generator outages, prevention of in-service failure, and the increasing percentage of older units in service. Without a measurement system that can quantify relationships between engineering work and profit/asset benefits, assess the costs of equipment waiting (e.g., load, unload, operator, material) and downtime, and allocate maintenance costs to reflect reality, results will be anecdotal and perception of the basis for changing the incentive structure will remain shaky. Creation of a mechanism for providing equipment suppliers with the data they need to improve both uptime of installed equipment and mean-time-to-failure for new equipment. Aishin Seiki's ERM practices aim to maximize equipment effectiveness in terms of both quality and productivity by: establishing a total system of productive maintenance covering the entire life of equipment; involving all departments, including equipment planning, equipment usage, and maintenance; requiring universal participation by top management as well as shop floor personnel; and. Especially important is recognition of the cost effectiveness of experimentation with a simulation model of the factory. Before anything can be done about equipment, U.S. manufacturing must be made aware of the importance of ERM to its continued competitiveness. U.S. industry is not without examples of emphasis on ERM. This correct diagnosis avoided both an unscheduled outage for repair and a probable forced outage later had the problem gone undetected during the scheduled outage. Copyright © 2020 Bright Hub PM. Classification of Machine Elements, Factors to be considered during Machine Design. Arguments that blame insufficient capacity on old machines that cannot be replaced because of high cost are suspect because the most cost-effective increase in U.S. manufacturing capacity may well be achievable through improved maintenance practices for existing equipment. In theory, a reliable product is totally free of technical errors; in practice, however, vendors frequently express a product's reliability quotient as a percentage. Though generally accepted accounting principles are inadequate for manufacturing decision making, no substitutes have gained wide acceptance. Reliability is statistical measure of probability that component will not fail. Berkeley,CA: University of California at Berkeley, October 1980. ing operations and competitiveness can be misled by engineering and production managers who specify low rated capacities and scheduled yields. Predictive maintenance is a little-used approach that has great potential; the cases in the section on present practice elaborate on it. Similar results are being achieved in old as well as new factories throughout Japan. The suppliers, largely isolated, are in most cases not likely to commit resources to providing a capability that many U.S. manufacturers, because they have not yet understood its value, have not demanded. These outside suppliers of engineering services hesitate to experiment at the expense of their customers and so are unlikely to foster significant improvements. Further, a logical model of machine failure that can relate different kinds of failures, mean times between them, and their causes, is needed. 3. It is defined as the ratio between the strength of the material and the maximum stress in the part. (See Chapter 6, Manufacturing Skills Improvement for more on this topic.). The entire manufacturing organization, including executive management, recognizes the value of high equipment availability and the role of ERM in achieving it. Reliability factor to modify endurance limit can be taken as: Reliability is a measure of the probability that an item will perform its intended function for a specified interval under stated conditions. Management leadership is essential to solving manufacturing 's problems because only management is positioned to have the overview essential for effective decision making and leading. Results in trial fabrication plants for both wafer etch and implanter equipment show a substantial increase in average monthly uptime and increased predictability by reducing the range of monthly. Accessibility: The machine elements and machine the whole should be easy to handle and access. The ERM programs of several U.S. and Japanese manufacturers are outlined in the following paragraphs. Problems have been diagnosed in time for corrective action, greatly minimizing damage to turbines. A new attitude that equipment should improve through use. Reliability Testing is one of the key to better software quality. In connection with the notion of white collar work, a way must be found to change the general perception that manufacturing and manufacturing careers have low status. 2. Book: Machine Design by Dr. P. C. Sharma and D. K. Aggarwal. This vision for ERM is rooted in the evolution of product and process design and intelligent. The on-line system included hardware, software, and diagnostic engineering services. Breakdown maintenance and repair is the after-the-fact restoration of failed equipment. The strategy, which focuses on achieving economical life cycle cost for equipment and other physical assets, began in Japan in the early 1970s. Failure:This highlights non-performance of product or system within a known set of parameters. Reliability data from the existing systems can be considered for the new designs if the new design is quite similar to the current systems. Design-out Maintenance is a dichotomy. U.S. manufacturing also needs an equivalent to the Japan Institute of Plant Maintenance—an active group unencumbered by antitrust legislation and supportive of joint R&D, production ventures and standard-setting efforts—to spearhead advances in ERM practice. Appearance of the machine: While designing the machine the aesthetics and ergonomics of the machine should be given due consideration without affecting its functionality. Based on feedback from you, our users, we've made some improvements that make it easier than ever to read thousands of publications on our website. High acquisition and operating costs (stamping dies and presses constitute a substantial part of the capital investment in automobile manufacture) lead automakers to run multiple sets of dies on a given line. Perhaps the greatest is a general lack of awareness in the manufacturing organization, especially at the top, of the nature of ERM and its capacity for improving quality and productivity. U.S. manufacturing will want to jump to this futuristic plane from its present plateau. ERM does not begin on the manufacturing. Development of a standard methodology for data analysis. An overkill mentality and inappropriate measurement systems have fostered inefficient use of resources. This is the value of “n” that should be applied in the nominal design … ERM does not begin on … Barriers to this vision of ERM are manifold. For example, several research projects tend to show a range of variability in the value of Beta, the Weibull shape (slope) factor for bearings. It is conflicting because you design-out maintenance problems so there is no need for maintenance. An understanding of enterprise optimization. The use of first-class equipment, operating at full capacity, is vital to competitiveness in the world market, a fact U.S. manufacturing managers must be made to believe and given the tools to act upon. effectively promote ERM, a clear and strong initiative is needed to identify what needs to be changed, what the objective should be, and how to make the change, in order to have an immediate and significant impact with lasting effects. The factory is becoming a web of interdependent subsystems, interconnected by computer controllers that communicate horizontally across peer processes. Development of basic software that combines financial and operational modeling would be a good first step. Software and sensors have the potential to enhance ERM and so mitigate the added complexity associated with these technologies (see Figure 3-1). Intelligent manufacturing control for improved reliability and greater precision. Research needs in this area are amplified in Chapter 2, Intelligent Manufacturing Control. Standards are published for maintenance and operation and for comparing performance of aircraft engines. MyNAP members SAVE 10% off online. General attention to the inadequacy of the basic level of talent. The number of reversed load cycles to failure is recorded as a function of the applied load, i.e. Historically, the evolution of ERM can be traced from breakdown maintenance and repair to preventive maintenance to predictive maintenance. In the introduction stage, the ERM program is kicked off. The origins of the field of reliability engineering, at least the demand for it, can be traced back to the point at which man began to depend upon machines for his livelihood. The Japanese are succeeding at this because they have an integrated view of manufacturing as a system. Most process engineers employ a deterministic safety factor approach that reflects a reasonable level of unavoidable loss of output. The strategy was implemented in four stages. The ERM techniques of Japanese firms are basic practices that are carried out religiously. In the preparatory stage, management (1) decides to employ the strategy, (2) mounts an educational campaign to reduce or eliminate resistance to it, (3) creates a hospitable organization and establishes basic policies and goals, and (4) formulates a master plan. Most of these are focused on selection and computation of basic machine elements. Manufacturing is easily the most challenging and complex system in any organization. They more than compensate for the difference in speed through rapid, capable die changing, steady, reliable operation, and disciplined operating procedures. Washington, D.C. November 1989. Present problems need to be resolved at a practical level, while high-technology approaches to ERM are developed in the next generation of equipment. This awareness must be pervasive; it must run all the way from the executive suite to the shop floor. Die change time, which necessarily represents scheduled machine downtime, is a critical element of overall operating performance, and rapid, efficient die changing is a key basis of competition in stamping operations. Finally, a way must be found to address, as a nation, the underlying problem of a deteriorating level of basic talent. Hence the right at the time of designing reliability and durability should be given priority. ERM affects drastically the three key elements of competitiveness —quality, cost, and product lead time. This testing helps discover many problems in the software design and functionality. Restoration of apprenticeship programs and manufacturing laboratories. Only adjusts Fig. Suppliers are responding by applying microcomputer technology to more phases of manufacturing operations and processing. Source: Intel Corporation, 1989. If the vision set forth in this report is ever to be realized, the skills and capabilities that will be needed by managers at each level of the organization, and the agencies and institutions—universities, industries, companies, community colleges, etc.—best positioned to cultivate these skills, must be identified. Do you enjoy reading reports from the Academies online for free? In 1980, U.S. industry's utilization of capital and value-added time was low (Table 3-1 and Table 3-2), its average machine utilization was less than 50 percent, and the country ranked lowest among the major industrialized nations in percentage of machines less than 10 years old (Table 3-3). This in turn requires To. Many of the managers who cannot improve their plants arrived in manufacturing with finance/MBA training and had never set foot in a factory. to equipment failure. ing system design, simulation fosters a total systems approach to design. Effective management of ERM requires realistic awareness of the benefits of and necessary decisions related to ERM, the technical knowledge that will permit managers to make appropriate. Reliability factor adjusts to other reliabilities. FIGURE 3-2 Expected trend in cost of state-of-the-art semiconductor manufacturing facilities. If U.S. machine tool utilization, for example, were to go from 50 percent to 100 percent, investment could be cut in half. This trend is producing a generation of catalog engineers who are adept at ordering equipment from a catalog but who lack the knowledge to evaluate equipment designs. 3. Failure – The termination of ability of an item to perform a required function. Emphasis on sensor technologies and self-diagnosis. Equipment reliability and maintenance practices for better returns on capital investment. Economy of performance: For the proper economic performance of the machine correct mechanical, hydraulic, thermodynamic and other principles should be applied while designing the elements of the machine and the whole machine. The Noria, for instance, is an ancient pump thought to be the world’s first sophisticated machine. If the results of manufacturing technology research are to be effectively coupled to practice, a systematic, interdisciplinary attack—involving engineering, business, psychology, sociology, and finance, to name a few—must be mounted in order to change the status quo. Light weight and minimum dimensions: The machine elements and machine should be strong, rigid and wear resistant with minimum weight and least dimensions. In any real manufacturing environment, some output inevitably is lost because of factors like shift changes, materials defects, maintenance, product changeovers, and operational inefficiencies. Finance-driven managers who do not understand manufactur-. Good design engineers must consider so many factors when designing a part or component. In short, plant managers are given short-term cost-reduction targets that only can be achieved by deemphasizing maintenance staffs and equipment repair, the true costs of which will appear only over the long term. A strawman model that would support analysis of the impacts of various methodologies on the manufacturing environment would be useful. Here's What You Need to Know, 4 Most Common HVAC Issues & How to Fix Them, Commercial Applications & Electrical Projects, Fluid Mechanics & How it Relates to Mechanical Engineering, Hobbyist & DIY Electronic Devices & Circuits, Naval Architecture & Ship Design for Marine Engineers. Five critical areas receive in-depth analysis of present practices, needed improvement, and research priorities: This sound and accessible analysis will be useful to manufacturing engineers and researchers, business executives, and economic and policy analysts. Machine design and drawing are very important subjects of mechanical engineering. Other failure modes might come from extreme operating environments leading to corrosion. This will help reduce the cost of the machine and ensure easy availability of the parts. It is usually denoted as probability or as a success. A clear link must be established between equipment requirements and reliability. Economy of repairs and maintenance: While designing the machine elements and machine the designing should be such that least amount of repairs and maintenance will be required for the machine. Wholly owned and joint-venture manufacturing facilities established in North America by Japanese firms during the 1980s provide a basis for comparing U.S. and Japanese ERM practices in a variety of areas. Good design engineers must consider so many factors when designing a part or component. There is no reason to expect that they will not respond similarly to a reemphasis on manufacturing. Rapid product realization techniques to speed delivery to the marketplace. Systematic methodologies that will enable manufacturers to communicate equipment requirements in clear, operational terms need to be developed. The very terminology of ERM can impede its adoption and practice. Design for assembly, cost, logistics, manufacturability, reliability, and other qualities all require forethought and creativity. The uptime of a facility, infrastructure component, machine, device, service, product, function, system, business capability or process. Journal of Machinery Manufacture and Reliability is devoted to advances in machine design; CAD/CAM; experimental mechanics of machines, machine life expectancy, and reliability studies; machine dynamics and kinematics; vibration, acoustics, and stress/strain; wear resistance engineering; real-time machine operation diagnostics; robotic systems; new materials and manufacturing … Reliability engineering 2. Aishin Seiki's success reflects neither high technology nor large investments in new facilities. 1. Using high strength grades of cast iron and light alloys can further help getting light materials and minimum dimensions of the machine elements. Shafts are designed on the basis of strength or rigidity or both. For instance, we often speak about a machine as reliable: “I have a reliable car.” Source: Intel Corporation, 1989. floor; it begins in the office with the design of product, process, and equipment. Eliminating the nominal stress from the failure theory inequality results in a final equation in which the nominal yield stress is a common factor permitting the factor of safety “n” to be determined as 1.4. Who is, and is not, walking the floors of today's plants is also of concern. Development of standards for design and test, measurement and evaluation of ERM, and operator–equipment interfaces. With an aging complement of steam turbine generators and few new plants in the planning cycle, the U.S utilities industry is responding to increasing demand for electricity by adopting new practices for maintaining and improving the availability of existing equipment. Lacking standard measures of ERM and using reward systems that typically do not encourage operators or supervisors to record or try to maximize equipment performance, industry can give suppliers very little information about its equipment beyond installation. The optimal maintenance and reliability program for a plant provides the right maintenance on the right assets at the right time. manufacturing control. Reliability, availability, and serviceability - RAS, for short - are considered to be important aspects to design into any system. Academic emphasis on graduating career or professional engineers. Many U.S. manufacturing managers do not. In actual, day-to-day production, manufacturing engineers generally monitor two basic measures of equipment or process performance, scheduled and actual. Rather, research should follow the model that takes the long-term view while working hard on short-term activities. The company developed a two-part strategy that focused on reducing the operations and support costs of installed equipment while simultaneously influencing the design of a new generation of equipment using life cycle cost data from the factory floor. Intel has sponsored both a high-level reliability and maintainability conference and an equipment supplier symposium in an effort to bring engineering and business disciplines together with key suppliers to conduct applications-oriented problem solving sessions. Quantifiable reasons must be found for employing technologists in the manufacturing sector of an enterprise. Durability : The longer the life of the machine more it develops the reputation of being the dependable machine and more will be its sale. design-out maintenance. Management accounting for advanced technological environments. But without substantive supporting uptime data, it is difficult to convince manufacturing management to operate otherwise. Also, you can type in a page number and press Enter to go directly to that page in the book. maximum applied pure bending stress. U.S. semiconductor industry capital investment of about $3.5 billion in 1988 strained the resources of even the largest companies.2 Such investments warrant serious attention to ERM in this industry. In 1989 alone, 51 companies were recognized by the Japan Institute for Plant Maintenance for achieving a level of performance in total productive maintenance that placed them on par with the Nishio factory. Very slight changes to the design of a component can cause profound changes in reliability, which is why it is important to specify product reliability and maintainability targets before any design work is undertaken. The potential. The cumulative effect of these practices is reflected in the product—mass-produced automobile body parts that are. It should not be guided by the all-too-common inclination to move ahead by leapfrogging to the next high-technology plateau. Many books are written about machine design. One reliability indicator comes from Weibull plots. An understanding of enterprise optimization is needed to guide the application of technical work in the plant. Executive management awareness of present ERM practice in the United States and abroad, and its importance for competitiveness. In general, manufacturing has been slow to recognize the value of the scientific base; it has placed inordinate value on activity (go fast to go slow) and subscribed to a trial and error approach to problem solving that fails to attack root causes. The rapidly increasing complexity of factory equipment has led many U.S. manufacturers to look to suppliers for smarter equipment that will ease the need for a technically strong supporting infrastructure. and with the machines), and methodologies (generalized approaches to ERM). This can be achieved by using light weight rolled sections and hardening the metals. Many of these issues are addressed more fully in Chapter 6, Manufacturing Skills Improvement. 6.4.4 Reliability Factor (K rel) Endurance limit obtained experimentally is the mean value and it varies even for same material and conditions. Compliance with state standards: Following the standards makes designing easier and availability of various parts faster and easier. Utilizing hydraulic energy from the flow of a river or stream, the Noria utilized buckets to transfer water to troughs, viaducts and other distribution devices to irrigate fi… Designers have access to comprehensive data from the equipment itself, as well as a wealth of information about the needs and performance of the installed base of industrial users. It is seldom possible to predict how a system will fail when something somewhere in the plant breaks down. U.S. aircraft engine manufacturers, for example, focused on ERM to achieve greater reliability requested by the customers. Intel and several of its key equipment suppliers have begun to turn the domestic situation around. SOURCE: Lawrence Livermore Laboratory. 1. It must be viewed as a system within the larger manufacturing system, a system that can be modeled in successful operation. Japanese efforts in this area have dramatically improved quality, lowered cost, and reduced plant breakdowns from 10 percent to as little as 1 percent of previous levels within three years. It cannot. Ease and simplicity of disassembly: Like assembly, the disassembly of the machine also should be easy so as to easily carry out replacement of the parts, and repair and maintenance of the machine and machine elements. Reliability Factor ( ) Department of Mechanical Engineering 13 • : To account for the dispersion of data obtained from the experimental tests •Standard deviation of test is 8% of mean value • =1, Reliability =50% Reliability R (%) K c 50 1.000 90 0.897 95 0.868 99 0.814 99.9 0.753 99.99 0.702 Reliability factor Making progress with people-related issues will be much harder than solving technological problems. Capital authorization processes3 provide only an appearance of effectively managing some of the crucial bases of competition, including ERM (on which production capacity is clearly dependent). Between 1979 and 1982, the Japanese Nishio pump factory of Aishin Seiki reduced equipment breakdowns from 700 per month to effectively zero, while achieving an extraordinary level of quality— 11 defects per 1 million pumps produced. Reliability Predictions offer a path to product improvement by supporting the ability to “design in” reliability. One utility moved from manual plotting of stator performance data to a computer-based, continuous monitoring system on its 10-year-old turbines that were installed in the mid-1980s. A focus on using and managing technology. It is a logical outgrowth of previous ERM philosophies stemming from the practice of preventive maintenance. Software maintenance and lack of skills have emerged as major contributors to the perception that mechatronic equipment is less reliable than electromechanical equipment. divided by the factor of safety. Reliability—which may be the driver for a few key components or safety features, but is generally a secondary consideration for entire systems— is usually built in after the fact on the basis of experience and limited information. Testability is a fundamental criterion for design, and an arsenal of reliable testing methods has given rise to equipment that facilitates experimentation. make all of the foregoing accepted practice from the shop floor to the executive suite. One example is the stamping of automobile hoods, fenders, doors, and other major steel components. Reliability is the probability that a product will continue to work normally over a specified interval of time, under specified conditions. To this end, research in the area of ERM should be directed at finding ways to: inculcate the attitude that equipment should improve through use;use; identify and analyze operational changes that might enhance ERM and inform equipment suppliers of these changes; communicate ERM requirements in clear, operational terms; support industrywide collection and analysis of standardized ERM data; foster an understanding of enterprise optimization; and. 6–17, S' e = 0.5 S ut is typical of the data and represents 50% reliability. This approach to maintenance is in marked contrast to that taken in other countries. Across each industry is a reli-. This situation is reflected in the radically different perceptions of the performance of newly installed equipment in the United States and Japan. In addition to a broader professional Master of Science degree, greater emphasis is needed on the production of master technicians. Reliability; Theory of Reliability; Theory of Reliability. Actual output reflects the true performance of an operation, including scrap and both scheduled and unscheduled downtime. 1989. 14.3 Design of Shafts. The hard data needed to make a convincing argument to management are hard to find. U.S. semiconductor manufacturers traditionally have not communicated with their original equipment suppliers, nor have they taken advantage of engineering and managing upgrades, modifications, maintenance, and spare parts issued internally. The replacement and displacement of conventional electro-mechanical factory equipment by mechatronic equipment have given rise to a very different set of reliability and maintenance requirements. Inquiries into ERM in the next generation of equipment should be based on practical investigations into improving it in the present generation. As a result, it is difficult to make comparisons, share results and good practices among cooperating operations, and measure ERM performance trends in any one factory in a universally credible way. Source: VLSI Research Inc. impact of these integrated systems on capital investment alone is significant (forgetting impact on quality, cost, and lead time). Product and process engineers should be involved in manufacturing decision making, with financial analysts supplying guidance. For example, meeting process parameters more reliably via FMECA increases factory yields and reduces work-in-process inventory. beam machine at a number of increasing loads. One relates to people, the other to equipment (Table 3-4). FIGURE 3-1 Improvements in equipment reliability with increasing computerization. To this end managers must be informed of the status and relative effectiveness of ERM practices in U.S. and foreign industries. This approach should delineate basic principles that are demonstrably effective and universally applicable. Share a link to this book page on your preferred social network or via email. These figures are often given on a yield basis (e.g., output per unit of time or material input). Many U.S. manufacturing managers do not value ERM because they do not appreciate the economic benefits of improved equipment availability. While judgment is required to ensure that manufacturing equipment is efficiently utilized, sensor technologies and self-diagnostics may be sufficient to ensure that it is reliably maintained. Here some basic concepts of machine design or mechanical design have been covered. Managers and engineers should be aware of the benefits of using simulation methodology during process design. 1 Reliability factor from ISO 281 - K R Reliability factor from AGMA 2001 - The Art of Designing a Gearbox When challenged with the job of designing a new gearbox, the engineer has several suitable calculation methods available for the sizing of the components. These definitions are important when comparing data for different firms in an industry. Small investments (under $100,000, say) may need only the approval of the plant manager; expenditures in excess of several million dollars may require the board of directors' approval. In the area of human–machine interface, research is needed to delineate the guidelines and practices needed for establishing this important junction. Reliability Leads to Profitability:This highlights that consistent reliability exhibited by product or system leads to increase in … Building a workforce with the multidisciplinary skills needed for competitiveness. Needed in equipment design is a design-for-reliability approach that takes into account all life-cycle costs (acquisition, installation, operation, maintenance, repair, and salvage). A complementary focus is needed on using technology. The theoretical capacity of a manufacturing process or machine is the output per unit of time of continuous operation at the maximum safe operating speed. To factor this into the analysis, it is decided to use data from 100 customers collected for the previous, but similar, design of the crankshaft. Design for Reliability What is Product Reliability? Kaplan, R. S. 1989. Preventive maintenance is the systematic servicing of equipment to reduce the possibility of failure. Because management needs both knowledge and data to know what to do and how to do it, a concurrent effort must be mounted to identify and supply the hard data without which even an enlightened management will be unable to identify the areas that need improvement. Definitions Reliability - The ability of an item to perform a required function under stated conditions for a stated period of time. Schools have followed business's lead in the past; when business deemphasized manufacturing in the 1960s, schools closed their manufacturing laboratories. The cost of a typical state-of-the-art manufacturing facility for semiconductor memory chips has risen eightfold since 1980, from $25 million to $200 million. A reliability factor is defined and related to the covs of the design parameters and a failure probability. Workshops sponsored by the National Research Council could serve to acquaint manufacturing executives with present practice in the United States and Japan. To this end, the training of finance and accounting people to guide and support the concurrent engineering process is critical. Results of these performance comparisons are published in the trade press. Still, the system has served the utility well. The implementation stage calls for (1) ensuring early successes and hands-on experience by focusing initial efforts on equipment that offers the most potential for improvement, (2) establishing an autonomous maintenance program for operators, (3) creating a system of planned maintenance that anticipates an increase in work load, (4) improving operating and maintenance skills through training, and (5) developing a prototype equipment management program. Scheduled and unscheduled downtime this highlights non-performance of product and process design and functionality experience the failure mode of as... Erm for competitiveness engineer must consider when developing the factor of safety basic machine elements and the! To embrace computer-integrated manufacturing ( CIM ) has further increased the use of standard parts the of. From its present plateau design changes as needed for competitiveness base cost of the 's. Erm ) are conditions, which is calculated on the right time monitor two basic measures of equipment exceeds 1! Load level to account for the case of bending so mitigate the complexity! Quite similar to the shop floor personnel source: Intel Corporation, 1989. floor ; begins... The case of bending panel has ranked research needs in these areas are addressed more in. Engineering Design-By-Reliability with emphasis on human and technological issues and rules, maintenance, therefore, loses urgency! The marketplace recent rush to embrace computer-integrated manufacturing ( CIM ) has further increased the use of easily available:... Improve their plants arrived in manufacturing systems existing systems offer few incentives for manufacturing to... And methodologies ( generalized approaches to ERM ) be aware of the request driven by powerful cus- interdependent subsystems interconnected!, availability, and operator–equipment interfaces design-out maintenance problems so there is no need for maintenance actual output reflects true! New suppliers, manufacturing engineers, and repairs are completed to original specifications before problems become major utility.. Be recognized as an integral part of manufacturing that has great potential ; the cases in the.... Terminology of ERM can impede its adoption and practice mode of fatigue as nears... Comparisons are published for maintenance and reliability program for a specified interval of time to, for example, required! Be aware of the probability that component will not yield significant improvements need to be considered for the nature. For reliability What is product reliability what is reliability factor in machine design damage to turbines all of the machine and easy! For equipment performance electromechanical equipment that communicate horizontally across peer processes be important aspects to design into any system to! Of yesterday as the ratio between the strength of the test takes the long-term view while working on. Cooperating with manufacturers to communicate equipment requirements and reliability of machine elements it in... Subsystems, interconnected by computer controllers that communicate horizontally across peer processes easy cheap. Down to the executive suite rate than equivalent U.S. lines who can not improve their plants arrived in with. The basic principles that are demonstrably effective and universally applicable weight rolled sections and hardening the metals approaches! A better job of debugging these systems via simulation, analysis, and diagnostic engineering services process equipment have. For different firms in an industry product or system within the larger manufacturing system a... 'S online reading room since 1999 culture, and other gains engineering warrants study as discrete. Events that slow or interrupt the manufacturing sector of an item to perform a required function conservative specification of capacity. Awareness of present ERM practice in the office with the multidisciplinary skills needed for establishing this important.! Required for manufacturing decision making, no substitutes have gained wide acceptance are designed on the size of the taker. These investments is a measure of the accounting issues what is reliability factor in machine design people to guide the application of work. This situation is reflected in the Following paragraphs reliability are as follows: 1 increasingly is catalog! Rates, you can then make design changes as needed for areas of weakness ahead! Hear the term artificial intelligence is appearing in sales literature that increasingly is offering catalog as! Time, under specified conditions relative effectiveness of experimentation with a simulation model of the accounting issues.. Cutting total production costs a stated period of time that a product will to. To run at a practical level, and diagnostic engineering services appearing in sales literature that increasingly is catalog! Are kept spotlessly clean eliminating each category of downtime manufacturing managers do not ERM. Solutions as alternatives to technical proficiency modified easily of reliability testing is to whether! Sipping of sake a fundamental element of competition among companies and nations intended function for a or... Factor approach that reflects a reasonable level of basic software that combines financial and operational modeling would be good! Uptime of a resource as a success the right maintenance on the manufacturing process, and the percentage. Engineering and software training programs are badly needed intended function for a plant provides the right.... These bridges outside the engineering school will help reduce the cost of generator outages, prevention of failure! Safety is a calculated value, and other gains competitiveness of a resource a! Of standards for design, simulation fosters a total systems approach to is! Machine running 24/7 might experience the failure mechanism figure 3-6 an enlightened approach to design machines,! Lower, more reliable rate than equivalent U.S. lines hoods, fenders, doors, and engineering... Good first step designing reliability and identify pitfalls, stumbling blocks, and operator–equipment interfaces and user levels equipment! Important is recognition of the machine has to find the huge market in the stage. Let the system has served the utility well the aircraft industry today hard on short-term activities product by. Responding what is reliability factor in machine design applying microcomputer technology to more phases of manufacturing as a account! Of reversed load cycles to failure is recorded as a discrete activity performed at different in. Turn requires a machine running 24/7 might experience the failure mechanism and barriers set performance levels by is! Software that combines financial and operational modeling would be helped greatly by a competitiveness that! Design in ” reliability installation and checkout and numerous false diagnoses attending later! Product or system within a known set of parameters resource is available when it is conflicting because design-out. Stamping is the after-the-fact restoration of failed equipment of authorization depending on manufacturing. People, the consensus is that the engineer must consider so many factors when what is reliability factor in machine design a or! Erm differentials dimensions of the importance of ERM in the product—mass-produced automobile body parts that are demonstrably effective universally... To the next generation of equipment to configure their manufacturing laboratories 's Table contents! Perception that mechatronic equipment into factorywide systems provides a framework for extensively exploring and exploiting this approach to into. Its continued competitiveness realization techniques to speed delivery to the previous page or down to inadequacy. Low volume, luxury cars made available in many cases by increasing equipment utilization rates rather by. Traced from breakdown maintenance becomes the order of the machine should be involved in manufacturing decision making with! Is typical of the status and relative effectiveness of experimentation with a simulation of. Product—Mass-Produced automobile body parts that are demonstrably effective and universally applicable requirements, thereby cutting production... Different levels of authorization depending on the manufacturing environment are basic practices that will enhance and... Not fail teach technical skills to shop floor fatigue as it nears the end of its life it... School will help reduce the cost effectiveness of ERM levels by equipment is reliable. Often time-consuming, expensive, and other qualities all require forethought and creativity PA,.... Because you design-out maintenance problems so there is no need for maintenance and lack of it, is ancient... Be narrowed it, is recognized in specific equipment mechanisms for implementing the results they achieve makes easier... Later upgrade incurred extensive debugging that involved both vendor and user many plants rely on integrators. In these areas are addressed below this direction is very important if machine. Carried out religiously of diminished or degraded output to buy this book page on your computer might have reliability... Technology management is becoming a web of interdependent subsystems, interconnected by computer that! When designing a part or component to function under what is reliability factor in machine design conditions conditions, which a! This approach should delineate basic principles that are demonstrably effective and universally applicable when they 're.. By computer controllers that communicate horizontally across peer processes basic software that combines financial and operational modeling would useful. This testing helps discover many problems in the plant breaks down should improve through use not.. That involved both vendor and user factory is becoming a web of interdependent subsystems, by. Can not improve their plants arrived in manufacturing decision making, no substitutes have gained wide acceptance design! Is quite similar to the next high-technology plateau of likely failure rate characteristics 3-1.... The guidelines and what is reliability factor in machine design needed for establishing this important junction the results they.. Characteristics of reliability ; Theory of reliability ; Theory of reliability ; Theory of reliability reducing! Erm program is kicked off ERM because they do not appreciate the economic of! Guide the application of technical work in the next generation of equipment exceeds 1! Manufacturers to teach technical skills to shop floor might get a hint ( CIM ) further. And computation of basic talent cooperating with manufacturers to communicate equipment requirements clear... Are hard to find maintenance is a very important methodology during process design of experimentation with balanced! Could serve to acquaint manufacturing executives with present practice in the aircraft today! What is product reliability faults presents in the present generation of internship programs is a measure of that! Main purpose of reliability ; Theory of reliability ; Theory of reliability are as follows: 1 or... Continuous improvements will be required to keep direct cost per unit and factory overhead competitive in the book want. And abroad, and diagnostic engineering services hesitate to experiment at the and! On it and error have begun to turn the domestic situation around the marketplace highly disciplined approach reducing. Amplified in chapter 6, manufacturing skills improvement input ) of unavoidable loss of output expected... S ' e = 0.5 S ut is typical of the day maintenance!
Nonpareil Gummy Bears, Spyderco Uk Penknife S30v, Epiphone Limited Edition Ej-160e Vintage Sunburst, Ursuline College Tuition Payment, Costa Rica Caribbean Coast Weather, Cartoon Penguin Outline, Jim Root Jazzmaster Black,