Industrial and Manufacturing engineering is one of the fastest growing fields within engineering. In recent years, more business is turning to businesses that have a strong background in industrial engineering. Because many large corporations see the industrial sector as a key driver of economic growth, they have been pouring money into this field for several years. What is an example of industrial engineering? An example of industrial engineering may be something as simple as a water pump or engine used in a car or truck, to complex designs that include computer chip manufacturing or aircraft production.
The requirements for an industrial engineer or manufacturing technologist generally fall under three umbrella categories: management, information systems, and manufacturing. An overview of these requirements will provide insight into the requirements for any industrial engineering major. Management Information Systems encompasses management of information and its interactions; manufacturing includes processes, materials, tools and production lifecycle costs; and information systems are usually applied to business processes or organizations. A person who wishes to pursue a career path in these fields should have completed a bachelor’s degree in science, math, computer engineering, and business before beginning an industrial engineering major.
An example of what an industrial engineer would be working with could be a plumbing company. The engineer could find and repair leaks, check for damage and deterioration, and make any necessary repairs to the equipment, etc. The engineer may also be responsible for purchasing materials and supplies, designing the process to maximize productivity, and maintain quality according to local ordinances. In this case, the industrial engineers would be performing non-technical tasks such as scheduling employees, ordering supplies, setting up work areas, and handling any problems that arise.
An example of what an industrial engineer would be doing in terms of manufacturing is determining quality control of products during the manufacturing process. The quality control process may include quality analysis, testing, and approval of products for acceptability and quality assurance. Process improvement is another example. It is the process of identifying and correcting problems in operations, procedures, or materials used during the manufacturing process. The goals of process improvement may be to improve the manufacturing process, decrease waste, increase productivity, improve quality, and/or reduce costs.
The final example relates to the quality engineering of supply chain management. Supply chain management is the process in which manufacturers determine how to transport finished goods from the raw materials to the retail locations. In addition, it includes the identification and arrangement of incoming orders and shipment to customers. For example, it could include the shipment of finished goods in trucks, ships, busses, trains, or any mode of transportation allowed by contract or custom. If an engineer is overseeing this process, their job would include planning and designing a logistical system that efficiently moves raw materials and finished goods in and out of the various business operations. This is one of the most important jobs in all of the different industries that require quality engineering services.
Industrial and manufacturing ergonomics is a branch that falls under the larger umbrella of quality engineering. It is the study of how people in manufacturing work, what types of equipment and other things they use, and how to keep them comfortable. Industrial and manufacturing ergonomics is an application that focuses on creating products that are safe, efficient, balanced, and accurate for the people who use them every day. Many engineers and scientists deal with this application on a daily basis.
There are two main areas of emphasis in industrial and mechanical engineering. These areas are Engineering Design and Engineering Analysis. The first area deals with creating new and innovative designs for machinery and industrial processes, while the second deals with statistical analysis, numerical data collection, and experimental designs and new methods of operation. Both of these subjects require specialized training in order to participate in the programs.
Other areas of focus within the realm of industrial and manufacturing engineering include Materials Science, Product Science, Manufacturing Techniques, Software Engineering, and Process Technology. The courses for each of these branches may be a little different, but many of the same subjects will be taught across each one. The number of hours in a particular program may differ slightly, but all of them are related to the actual work that occurs in a factory or office. You can choose a number of programs from specific industries, depending on your field of expertise and what your specific needs are. These include food and nutritional science, applied physics, electrical and computer engineering, and production engineering.