Mechanical Engineering and Manufacturing

Manufacturing Engineering Pushes the Boundaries of Product Possibilities

From the initial conception of an idea to the finished product that is presented to consumers, modern manufacturing engineering has grown to encompass every aspect of product development. As the demands of a competitive society increase daily, manufactures from every division of industry continue to rely more heavily on science as a means of creating the best product for the cheapest price.

Historical Implications of Early Manufacturing to Modern-day Feats of Complex Engineering

Since the first factories of the Industrial Revolution, powered primarily by simple inventions such as the steam engine, manufacturing engineering has developed into a process much more complex than simple production. In fact, Henry Ford’s revolutionary method of mass production through assembly lines is often considered to have developed from early engineering ideology first cemented by the industrious labors of the early 19th century. These concepts have led to current working conditions, in which manufacturing is no longer relegated to sweatshops and laborious work by masses of poorly qualified individuals.

Manufacturing is More than Mere Product Production

Although material goods are usually the first things that come to mind when discussing the field of manufacturing engineering, it actually encompasses a much broader scope of production, including the creation and/or improvement of anything beneficial to man, plants, and animals. In addition, manufacturing can also include any machines, tools, or processes necessary for the engineering and creation of a final product. It is important to remember that the creation of a product involves many different processes and necessitates the effort of multiple individuals along the way to completion.

Research Produces Better and More Beneficial Medications

Engineering areas such as product research, production, composition, and product quality are constantly being modified in order to streamline production or develop a more advanced product. For example, manufacturing engineering research in the medical field is constantly evolving, in an ongoing effort to learn more about stem cells and their potential uses and restorative benefits for the human body. As research progresses, doctors and scientists are continually providing manufacturers with the ability to engineer more sophisticated pharmaceutical drugs that have the ability to ease human suffering and cure diseases. See also: What does a Physical Engineer do?

Manufacturing Goes High Tech

Scientific application in manufacturing is also constantly evolving and improving the present status quo. As technology continues to advance, so do the demands placed on the manufacturing engineering industry. Engineers are relying more often on computers and computer-driven technology in order to manipulate things such as electricity, human cells, atoms, and nanoparticles, or when they’re developing alternative fuel systems for the automotive industry. All of these elements are increasingly being incorporated into futuristic inventions, and serve to aid in the discovery and understanding of tangible and intangible products for human use, consumption, and overall life improvement.

In the 21st Century, manufacturing has come to mean much more than simple production of goods and schools are offering impressive courses to deliver top-notch mechanical and physical engineers. It encompasses economics, science, and industry in an effort to manufacture products, goods, and services that are of a better quality, value and quantity than their competitors. Manufacturing engineering continues to require innovative technology that is always moving forward toward the next best thing.

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