Employers also value experience, so cooperative education engineering programs at universities are also beneficial. However, many industrial engineers have degrees in mechanical engineering, electrical engineering, manufacturing engineering, industrial engineering technology, or general engineering.
The federal government employs fire protection engineers of which 10 work overseas. The Department of the Navy is the largest employer with 57 civilians followed by The General Services Administration with 36, and the Department of the Army with A few cabinet level agencies and large independent agencies employ fire protection engineers.
Click on "Private Sector Job Listings" to search for related occupations in the private sector. Fire protection engineers prevent, identify, and mitigate fire hazards. They also detect, control, and suppress fire events. Fire protection engineers typically: Fire protection engineers examine the nature and characteristics of fire phenomena and the associated products of combustion.
Their work includes the anticipation and prediction of fire behavior on materials, structures, machines, and apparatus to protect life and property. Fire protection engineers integrate knowledge of various engineering and scientific disciplines to perform work such as: The federal government employs 1, materials engineers.
A few other cabinet level agencies employ small numbers of this occupation. Private Sector Job Listings Most federal materials engineers work in agriculture, defense, aviation, space exploration, health, nuclear energy, and transportation agencies.
Their work frequently includes monitoring and administering activities through contracts and grants. These engineers also provide outreach and educational services to research, industrial, and private sectors expanding and promoting the use of new and improved materials.
The basic title for positions in this occupation is Materials Engineer. In addition to the basic title, the following parenthetical titles may be used: Ceramics — Work primarily involving nonmetallic, inorganic materials: Composites — Work primarily involving manufacturing materials fabricated by combining two or more distinct materials to create better materials, such as particulate or fiber-reinforced metal, polymer, and ceramic materials.
Electromagnetics — Work primarily encompassing: Environmental Effects — Work primarily involving the use of materials in special or corrosive environments e. Failure Analysis — Work primarily involving the investigation and evaluation of failed materials and surfaces to determine causes of failure.
Fluids — Work primarily involving: Manufacturing — Work primarily involving improving or developing fabrication or processing techniques for manufacturing materials. Metals — Work primarily involving metals and alloys typically selected by testing and evaluating compatibility with end uses.
Nondestructive Evaluation — Work primarily involving the development and application of methods for detecting flaws and discontinuations in materials. Polymers — Work primarily involving polymers with potential to improve products e.
Structural Analysis — Work primarily involving the determination of mechanical properties under varying conditions of load e. Textiles — Work primarily involving natural or synthetic fibers, fibrous materials, and textiles. The federal government employs in this series.
The Departments of the Interior employs followed by the Department of Agriculture with 97, the Department of the Army with 63 and the Navy Department employs Landscape architects principally work on projects and activities involved in the alignment and arrangement of sites, land uses, drainage, and vegetation.
They may develop extensive plans, including comprehensive outdoor recreation, urban, regional landscape, land development, ecological, environmental restoration, sustainable development, and water resource recreation plans.
This work requires knowledge of environmental and ecological compliance laws and policies and the requirements of ecosystems. Landscape architecture requires both the art of site and landscape design and skill in applying the science of architecture to site elements and materials Job Series Titles:Industrial engineers (IEs) apply science, mathematics, and engineering methods to complex system integration and ashio-midori.come these systems are so large and complex, IEs need to have knowledge and skills in a wide variety of disciplines, the ability to work well with people, and a broad, systems perspective.
Industrial engineers use their knowledge and skills to improve systematic. Engineering is the creative application of science, mathematical methods, and empirical evidence to the innovation, design, construction, operation and maintenance of structures, machines, materials, devices, systems, processes, and organizations for the benefit of humankind.
The discipline of engineering encompasses a broad range of more specialized fields of engineering, each with a more. industrial engineering occupations This group includes occupations concerned with the design and installation of integrated systems of personnel, materials, machinery, and equipment.
Accessory techniques may include those used in mechanical and various other engineering specialities. Occupations in the Industrial & Engineering Technology Pathway. Listed below are Career Kokua related occupations that belong to the Industrial & Engineering Technology pathway.
The occupations are sorted by the amount of education required. Occupation titles may appear more than once depending on the various levels of education .
Page updated 5/26/ This group includes all classes of positions, the duties of which are to advise on, administer, supervise, or perform professional, scientific, or technical work concerned with engineering or architectural projects, facilities, structures, systems, processes, equipment, devices, material or methods.
The median annual wage for industrial engineering technicians was $54, in May The median wage is the wage at which half the workers in an occupation earned more than .