associate’s degree in metallurgy

Last Updated on September 8, 2022 by Ngefechukwu Maduka

There can be an almost indescribable urge for a person of arts to understand the science about metals. Why and how are they different from each other? What is the physical and chemical make-up of a metal? What makes a metal turn into another compound at high temperature and pressure? What does it take to make a different chemical composition? If there is a metallurgical engineering associate degree, then due to its challenging structure, you would be provided with excellent skills in problem solving and acquire knowledge about the content of metals.

The associate’s degree in metallurgy is a streamlined version of the Bachelor of Applied Science in Metallurgical Engineering. The program consists of 56 credit hours including 56 credits in the core, 33 credits in general studies, and 17-28 credits toward an area of concentration.

You may know that Iron and Steel Metallurgy is very important in the present industrial world which is why they are the most important part in the mechanical engineering related job. There is a lot of variation you can choose in metallurgical Engineer, and we will discuss all of these below in more detail.

branches of metallurgical and materials engineering

Associate’s Degree In Metallurgy

An associate degree in applied science concentrates on teaching job-specific skills and specialized knowledge that will enable the student to perform well on the job. Completing this program is an excellent way to prepare for success in your chosen career.

Metallurgy is referred to as the study of metals and their properties. It can involve other sciences, such as physics and chemistry. Students who are interested in this field may go on to earn higher degrees to become engineers or have a career in environmental science.

Associate of Applied Science Program in Metallurgy

AAS in Gunsmithing

Pocahontas, USA: This degree will not only offer students gunsmithing proficiency, but students will have an associate’s degree, which may be transferrable to certain 4-year colleges and universities for future education. It will also include courses in communications, math, and business, which will better prepare students to be business owners and managers.

Metallurgy is the study of the properties of metals, and the application of this study to metal recovery, production, purification, and use.

Materials scientists that specialize in metals such as steel, aluminum, iron, and copper are known as metallurgists. They frequently work with alloys, which are metals that have been blended with one another or with other components to create materials with certain qualities. Metallurgical engineers and material science engineers are other terms for them.

metallurgical engineering course

Metallurgical Engineering Degree

Metallurgical engineering is the study of metals and how metals can be safely transformed into products that benefit humanity – things such as surgical implants, computer chips, cars, materials for space exploration, and more.

Metals and mineral products surround us everywhere – at home, on our way to and from work and in our offices or factories. They form the backbone of modern aircraft, automobiles, trains, ships, and endless recreational vehicles; buildings; implantable devices; cutlery and cookware; coins and jewelry; firearms; and musical instruments. The uses are endless. While threats abound from alternative material choices, metals continue to be at the forefront and are the only choice for many industrial applications.

Developing new materials, new processes to make them, and testing new theories and models to understand them are the focal points for today’s metallurgist. We have the means to measure properties at the macro, micro, nano and atomic scales, giving us unprecedented access to fuel new developments. The strong dependence of our society on metals gives the profession of metallurgical engineering its sustained importance in the modern world.

It is believed by most that our economic and technical progress into the 21st century will depend in large part on further advances in metal and mineral technology. For example, advancements in energy technologies, such as the widespread use of nuclear fusion, will only be possible by material developments not yet in existence. The future is indeed bright for today’s material scientists and those engineers who chose metallurgy as their career choice.

Degree In Metallurgy

Program Offerings

• Bachelor of science degree in Metallurgical Engineering (SD Mines offers one of the few metallurgical engineering degrees in the nation)
• Accelerated master’s in Materials Engineering and Science (earn your bachelor’s degree and master’s degree in as little as five years)
• Master of science degree in Materials Engineering & Science
• Doctor of philosophy degree in Materials Engineering and Science
• Minor: Materials Science-Metals

What Does a Metallurgist Do?

Metallurgists deal with extracting and processing metals. They examine the performance of metals, and determine which ones can be put to which uses.

Chemical metallurgists test ores to determine the recoverability of metals from them, and design processes to recover them efficiently. They also monitor metal corrosion and fatigue, and develop ways to strengthen metals. They may also test metals to ensure they’re of acceptable quality.

Physical metallurgists monitor the behavior of metals under stress, and write reports on test results. They also investigate accidents potentially caused by metallurgical failure.

Process metallurgists design metal parts and control the processes through which they’re shaped, such as casting. They also weld and solder metal parts together.

Metallurgists interested in the environment can help design cleaner, less wasteful processes that produce less slag to be landfilled. They can also help optimize product designs so that they’re lighter, requiring fewer resources to produce and less fuel to transport.

Where Does a Metallurgist Work?

Metallurgists spend most of their time in offices and laboratories, and may also work “on the floor” in manufacturing facilities. The U.S. Bureau of Labor Statistics (BLS) groups metallurgists with materials engineers. As of 2012, 19% of materials engineers worked in aerospace product and parts manufacturing. 10% worked in architectural, engineering, and related services. Another 7% worked in scientific research and development services. 6% were employed in semiconductor and other electronic component manufacturing, and another 6% were employed by the federal government.

They usually work full time during standard business hours, but may need to work overtime occasionally.

What Is the Average Metallurgist Salary

BLS reported the median annual wage for materials engineers as $85,150 in 2012. Those employed by the federal government earned the highest salaries ($109,810). Those working in aerospace product and parts manufacturing earned $97,160. Materials engineers providing scientific research and development services made an average of $86,250. Workers who manufactured semiconductors and other electronic components brought in $84,090, and those providing architectural and engineering services were paid $80,080.

StateTotal EmploymentBottom 25%Median SalaryTop 75%
Alabama510$73,140$95,250$115,770
Alaska50
Arizona830$73,200$92,500$113,140
Arkansas140$62,500$77,180$94,750
California2,690$78,500$98,200$121,810
Colorado450$71,620$91,870$125,230
Connecticut660$70,670$88,830$108,210
Delaware50$67,370$80,390$91,880
Florida500$68,390$85,900$106,360
Georgia380$59,020$84,500$110,250
Idaho140$78,430$95,570$116,550
Illinois640$68,210$86,360$112,950
Indiana1,280$66,220$83,190$101,930
Iowa90$56,700$71,760$89,170
Kansas70$60,720$86,930$107,640
Kentucky140$63,200$77,970$90,920
Louisiana40$77,960$88,640$123,690
Maine80$61,700$74,420$94,510
Maryland700$76,030$97,940$122,750
Massachusetts1,460$66,870$81,950$108,640
Michigan1,060$63,090$76,630$93,820
Minnesota240$76,640$86,880$100,830
Mississippi110$53,180$66,430$81,890
Missouri390$75,900$95,430$117,550
Montana50$48,870$51,470$66,860
Nebraska110$57,740$68,250$78,650
Nevada80$72,010$87,560$105,710
New Hampshire120$71,940$86,080$106,510
New Jersey360$78,680$92,260$112,470
New Mexico300$85,880$104,940$126,430
New York1,620$71,180$85,310$100,470
North Carolina350$68,520$86,750$105,680
Ohio1,460$67,600$88,270$115,940
Oklahoma220$58,110$69,190$84,570
Oregon320$75,860$89,380$106,350
Pennsylvania1,220$65,320$82,560$104,210
Rhode Island40$70,360$81,920$90,970
South Carolina290$63,030$79,030$93,140
Tennessee380$65,320$83,150$103,510
Texas1,710$59,690$82,100$107,330
Utah430$60,480$75,530$93,810
Vermont40$65,910$79,190$93,090
Virginia420$69,130$90,700$114,170
West Virginia110$59,760$82,210$95,420
Wisconsin540$58,010$70,970$87,020

importance of metallurgy in mechanical engineering

We live in a material world. Today, it is the role of materials science (Fig. 1) to study, develop, design and operate processes that transform raw materials into useful engineering products intended to improve the quality of our lives. It is often said that material science is the foundation upon which today’s technology is based, and real-world applications would not be possible without the material scientist. With such a broad-ranging scope, the question is, if we really need metallurgical engineers, why are we graduating so few of them? Part of the answer lies in the role metallurgists play in product design and manufacturing. Let’s learn more.

    The industrial revolution thrust metals to the forefront of technology, and they have stayed there ever since, becoming the very foundation of our modern society. One cannot envision a life where transportation and communications systems, buildings and infrastructure, industrial machines and tools, and safety/convenience devices are not part of our daily lives. Today, other materials have emerged as complements for (or threats to) metal’s dominance. Composites are one such example.

    Metallurgy is the part of materials science and materials engineering that studies the physical and chemical behavior of metallic elements, their intermetallic compounds and their alloys. This definition is all-encompassing and includes the study of processes run in furnaces and ovens, the forging and rolling of metals, foundry operations, electrolytic refining, creation and use of metal powders, welding, heat treatment and much more.

    Metallurgy is also the technology of metals: the way in which science is applied to the production of metals (including heat treatment), and the engineering of metal components for use in consumer products and manufactured goods. The production of component parts made from metals is traditionally divided into several major categories:

•   Mineral processing, which involves gathering mineral products from the Earth’s crust.

•   Extractive metallurgy, which is the study and application of the processes used in the separation and concentration of raw materials. Techniques include chemical processing to convert minerals from inorganic compounds to useful metals and other materials.

•   Physical metallurgy, which links the structure of materials (primarily metals) with their properties. Concepts such as alloy design and microstructural engineering help link processing and thermodynamics to the structure and properties of metals. Through these efforts, goods and services are produced.

Metallurgist Jobs & Job Description

Recent Metallurgy Job Listings

Use the search box below to find all the Metallurgist job listings in our job board.Post to EnvironmentalScience.org and 100+ Job Boards with One Submission Metallurgists work to mold or combine metals in order to create certain desired shapes or properties. Metallurgy also focus on making and compounding alloys and separating metals from their ores. While jobs do vary, most metallurgists discover that the following list of tasks falls under their scope of practice:

  • Review peer research and journals discussing to current discoveries in the field
  • Collect field and control samples of media and metals in order to perform analyses
  • Evaluates, recommends and implements metallurgical sampling and analysis
  • Identifies and reports on metallurgical or processing issues
  • Consults with recommendations to correct, mitigate or improve processes
  • Implement best procedures for use in metallurgical analysis
  • Prepare and aggregate reports containing highly technical data to internal and external stakeholders
  • Document and communicate results of technical data
  • Engage in predictive computer modelling for metallurgical engineering
  • Ensure that proper health and safety documentation is generated for projects and tasks and is consistent with engineering policies and procedures

Senior metallurgists often have more responsibilities that include management of a lab or field site and team. Such responsibilities often include:

  • Act as Project Manager for departmental or field process improvements
  • Delegate or complete daily and weekly production and consumables inventory management
  • Complete monthly production and inventory reports as part of a cross-disciplinary team consisting of business and technical staff
  • Analyze, design, and test components, assemblies or systems that meet business standards and program / product requirements
  • Create a challenging and positive team environment ensuring that junior members receive the professional development and mentorship that will in turn have them become industry leaders
  • Consult with policymakers regarding research and interdisciplinary issues that may affect national and international policy
  • Navigate regulatory issues as they apply to fieldwork and site development
  • Address specific organizational initiatives with internal stakeholders
  • Share engineering best practices and promote open dialogue on an international level
  • Protect proprietary or developing technology that provides a competitive advantage to the business

What Is the Job Demand for Metallurgists?

Demand for materials engineers will change little between 2012 and 2022. This is partly due to declining employment in the manufacturing sector. However, some jobs will open up as older workers retire.

What Metallurgist Careers Are Available?

Eventually, materials engineers may become technical specialists or advance to supervisory positions. They may also use their technical expertise to help customers plan and install products as sales engineers.

How Do I Get a Metallurgist Degree?

Materials engineers usually must have at least a bachelor’s degree in materials science or engineering. Students typically take courses in engineering, mathematics, calculus, chemistry, and physics. Laboratory work is also required. Some engineering schools offer cooperative 5-6-year programs that combine coursework with job experience. These programs, as well as any other type of hands-on experience, are highly valued by prospective employers.

Some colleges offer a 5-year program leading to both a bachelor’s and master’s degree. Graduate degrees open up opportunities in research and development, and are sufficient for employment as an instructor at some colleges. A degree from an ABET-accredited program is often preferred by prospective employers, and usually required for becoming a licensed professional engineer.

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