Manufacturing Technology

Manufacturing technology provides the tools that enable production of all manufactured goods.  These master tools of industry magnify the effort of individual workers and give an industrial nation the power to turn raw materials into the affordable, quality goods essential to today’s society.  In short, we make modern life possible.

Manufacturing technology provides the productive tools that power a growing, stable economy and a rising standard of living.  These tools create the means to provide an effective national defense.  They make possible modern communications, affordable agricultural products, efficient transportation, innovative medical procedures, space exploration... and the everyday conveniences we take for granted.

Production tools include machine tools and other related equipment and their accessories and tooling.  Machine tools are non-portable, power-driven manufacturing machinery and systems used to perform specific operations on man-made materials to produce durable goods or components.  Related technologies include Computer Aided Design (CAD) and Computer Aided Manufacturing (CAM) as well as assembly and test systems to create a final product or subassembly.

Manufacturing Technology takes turns under all types of economic systems. In a free market economy, manufacturing is usually directed toward the mass production of products for sale to consumers at a profit. In a collectivist economy, manufacturing is more frequently directed by the state to supply a centrally planned economy. In free market economies, manufacturing occurs under some degree of government regulation. Modern manufacturing technology includes all intermediate processes required for the production and integration of a product's components.

Technology in Engineering

An engineering technology is a specialist devoted to the implementation of existing technology within a field of engineering. Technologists often work with engineers in a wide variety of projects by applying basic engineering principles and technical skills. The work of technologists is usually focused on the portion of the technological spectrum closest to product improvement, manufacturing, construction, and engineering operational functions.

Technologists are employed in a large and wide-array of industries, including manufacturing, construction, industrial, maintenance, and management. They may be hired as managers of technology, depending on the technologist's educational emphasis on management preparation. Entry-level positions such as product design, testing, development, systems development, field engineering, technical operations, and quality control are all common positions for engineering technology graduates.

The distinction between engineering and engineering technology emanates primarily from differences in their educational programs. Engineering programs are geared toward development of conceptual skills, and consist of a sequence of engineering fundamentals and design courses, built on a foundation of complex mathematics and science courses. Engineering technology programs are oriented toward application, and provide their students introductory mathematics and science courses, and only a qualitative introduction to engineering fundamentals. Thus, engineering programs provide their graduates a breadth and depth of knowledge that allows them to function as designers. Engineering technology programs prepare their graduates to apply others' designs. Engineering Technology programs typically include instruction in various engineering support functions for research, production, and operations, and applications to specific engineering specialties.

Engineering Technology

An engineering technology is a specialist devoted to the implementation of existing technology within a field of engineering. Technologists often work with engineers in a wide variety of projects by applying basic engineering principles and technical skills. The work of technologists is usually focused on the portion of the technological spectrum closest to product improvement, manufacturing, construction, and engineering operational functions.

Technologists are employed in a large and wide-array of industries, including manufacturing, construction, industrial, maintenance, and management. They may be hired as managers of technology, depending on the technologist's educational emphasis on management preparation. Entry-level positions such as product design, testing, development, systems development, field engineering, technical operations, and quality control are all common positions for engineering technology graduates.

The distinction between engineering and engineering technology emanates primarily from differences in their educational programs. Engineering programs are geared toward development of conceptual skills, and consist of a sequence of engineering fundamentals and design courses, built on a foundation of complex mathematics and science courses. Engineering technology programs are oriented toward application, and provide their students introductory mathematics and science courses, and only a qualitative introduction to engineering fundamentals. Thus, engineering programs provide their graduates a breadth and depth of knowledge that allows them to function as designers. Engineering technology programs prepare their graduates to apply others' designs. Engineering Technology programs typically include instruction in various engineering support functions for research, production, and operations, and applications to specific engineering specialties.