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Job Outlook for:
Metal and Plastic Machine Workers

SOC: 51-4061        OOH: U296

Metal and Plastic Machine Workers
Quick Stats
Total Jobs in 2016 1,039,600
Expected Growth -9%    (Decline)
New Jobs To Be Added
from 2016 to 2026
-91,100
Median Pay $25,000 to $34,999

 

 

Employment Outlook for Metal and Plastic Machine Workers

Employment of metal and plastic machine workers is projected to decline 9 percent from 2016 to 2026. Employment declines are expected to stem from continued advances in technology and foreign competition.

One of the most important factors influencing employment of these occupations is the use of labor-saving machinery. Many firms are adopting technologies such as computer numerically controlled (CNC) machine tools and robots to improve quality and lower production costs. The switch to CNC machinery requires computer programmers instead of machine setters, operators, and tenders. Therefore, demand for manual machine tool operators and tenders is likely to be reduced by these new technologies, and conversely, demand for CNC machine programmers is expected to be strong.

The demand for metal and plastic machine workers is also affected by the demand for the parts they produce. Both the plastic and metal manufacturing industries face foreign competition that limits the orders for parts produced in this country. Some U.S. manufacturers have moved their production to foreign countries, reducing jobs for machine setters and operators. However, some companies are bringing jobs back to the United States from overseas, and this is expected to continue over the coming decade.

Job Prospects

Most job opportunities will result from the need to replace workers who leave these occupations.

Workers who are able to operate CNC machines and have industry certifications should also have best job prospects.

 

 


 

Typical Pay for Metal and Plastic Machine Workers

The median annual wage for metal and plastic machine workers was $34,840 in May 2016. The median wage is the wage at which half the workers in an occupation earned more than that amount and half earned less. The lowest 10 percent earned less than $22,470, and the highest 10 percent earned more than $54,600.

Median annual wages for metal and plastic machine workers in May 2016 were as follows:

Computer numerically controlled machine tool programmers, metal and plastic $50,580
Model makers, metal and plastic 48,550
Patternmakers, metal and plastic 44,210
Metal-refining furnace operators and tenders 41,040
Rolling machine setters, operators, and tenders, metal and plastic 40,680
Milling and planing machine setters, operators, and tenders, metal and plastic 39,840
Lathe and turning machine tool setters, operators, and tenders, metal and plastic 38,480
Computer-controlled machine tool operators, metal and plastic 37,880
Heat treating equipment setters, operators, and tenders, metal and plastic 37,180
Welding, soldering, and brazing machine setters, operators, and tenders 36,980
Forging machine setters, operators, and tenders, metal and plastic 36,930
Drilling and boring machine tool setters, operators, and tenders, metal and plastic 36,410
Pourers and casters, metal 36,180
Foundry mold and coremakers 34,790
Multiple machine tool setters, operators, and tenders, metal and plastic 34,340
Extruding and drawing machine setters, operators, and tenders, metal and plastic 33,870
Grinding, lapping, polishing, and buffing machine tool setters, operators, and tenders, metal and plastic 32,890
Cutting, punching, and press machine setters, operators, and tenders, metal and plastic 32,370
Plating and coating machine setters, operators, and tenders, metal and plastic 31,280
Molding, coremaking, and casting machine setters, operators, and tenders, metal and plastic 30,480

In May 2016, the median annual wages for metal and plastic machine workers in the top industries in which they worked were as follows:

Machinery manufacturing $38,180
Primary metal manufacturing 37,260
Transportation equipment manufacturing 37,130
Fabricated metal product manufacturing 35,220
Plastics and rubber products manufacturing 30,300

Most metal and plastic machine workers are employed full time. Overtime is common, and because many manufacturers run their machinery for extended periods, evening and weekend work also is common.



 

What Metal and Plastic Machine Workers Do All Day

Metal and plastic machine workers set up and operate machines that cut, shape, and form metal and plastic materials or pieces.

Duties

Metal and plastic machine workers typically do the following:

  • Set up machines according to blueprints
  • Monitor machines for unusual sound or vibration
  • Insert material into machines, manually or with a hoist
  • Operate metal or plastic molding, casting, or coremaking machines
  • Adjust machine settings for temperature, cycle times, and speed and feed rates
  • Remove finished products and smooth rough edges and imperfections
  • Test and compare finished workpieces to specifications
  • Remove and replace dull cutting tools
  • Document production numbers in a computer database

Consumer products are made with many metal and plastic parts. These parts are produced by machines that are operated by metal and plastic machine workers. In general, these workers are separated into two groups: those who set up machines for operation and those who operate machines during production. Many workers, however, perform both tasks.

Although many workers both set up and operate machines, some may specialize in being a machine setter or a machine operator and tender.

Machine setters, or setup workers, prepare the machines before production, perform test runs, and, if necessary, adjust and make minor repairs to the machinery before and during operation.

If, for example, the cutting tool inside a machine becomes dull after extended use, it is common for a setter to remove the tool, use a grinder or file to sharpen it, and reinstall it into the machine. New tools are produced by tool and die makers.

After installing the tools into a machine, setup workers often produce the initial batch of goods, inspect the products, and turn the machine over to an operator.

Machine operators and tenders monitor the machinery during operation.

After a setter prepares a machine for production, an operator observes the machine and the products it makes. Operators may have to load the machine with materials for production or adjust the machine’s speeds during production. They must periodically inspect the parts a machine produces. If they detect a minor problem, operators may fix it themselves. If the repair is more serious, they may have an industrial machinery mechanic fix it.

Setters, operators, and tenders are usually identified by the type of machine they work with. Job duties generally vary with the size of the manufacturer and the type of machine being operated. Although some workers specialize in one or two types of machinery, many are trained to set up or operate a variety of machines. Machine operators are often able to control multiple machines at the same time because of increased automation.

In addition, production techniques, such as team-oriented “lean” manufacturing, require machine operators to rotate between different machines. Rotating assignments results in more varied work but also requires workers to have a wide range of skills.

The following are examples of types of metal and plastic machine workers:

Computer-controlled machine tool operators operate computer-controlled machines or robots to perform functions on metal or plastic workpieces.

Computer numerically controlled machine tool programmers develop computer programs to control the machining or processing of metal or plastic parts by automatic machine tools, equipment, or systems.

Extruding and drawing machine setters, operators, and tenders set up or operate machines to extrude (pull out) thermoplastic or metal materials in the form of tubes, rods, hoses, wire, bars, or structural shapes.

Forging machine setters, operators, and tenders set up or operate machines that shape or form metal or plastic parts.

Rolling machine setters, operators, and tenders set up or operate machines to roll steel or plastic or to flatten, temper, or reduce the thickness of materials.

Cutting, punching, and press machine setters, operators, and tenders set up or operate machines to saw, cut, shear, notch, bend, or straighten metal or plastic materials.

Drilling and boring machine tool setters, operators, and tenders set up or operate drilling machines to drill, bore, mill, or countersink metal or plastic workpieces.

Grinding, lapping, polishing, and buffing machine tool setters, operators, and tenders set up or operate grinding and related tools that remove excess material from surfaces, sharpen edges or corners, or buff or polish metal or plastic workpieces.

Lathe and turning machine tool setters, operators, and tenders set up or operate lathe and turning machines to turn, bore, thread, or form metal or plastic materials, such as wire or rod.

Milling and planing machine setters, operators, and tenders set up or operate milling or planing machines to shape, groove, or profile metal or plastic workpieces.

Metal-refining furnace operators and tenders operate or tend furnaces, such as gas, oil, coal, electric-arc or electric-induction, open-hearth, and oxygen furnaces. These furnaces may be used to melt and refine metal before casting or to produce specified types of steel.

Pourers and casters operate hand-controlled mechanisms to pour and regulate the flow of molten metal into molds to produce castings or ingots.

Model makers set up and operate machines, such as milling and engraving machines to make working models of metal or plastic objects.

Patternmakers lay out, machine, fit, and assemble castings and parts to metal or plastic foundry patterns and core molds.

Foundry mold and coremakers make or form wax or sand cores or molds used in the production of metal castings in foundries.

Molding, coremaking, and casting machine setters, operators, and tenders set up or operate metal or plastic molding, casting, or coremaking machines to mold or cast metal or thermoplastic parts or products.

Multiple machine tool setters, operators, and tenders set up or operate more than one type of cutting or forming machine tool or robot.

Welding, soldering, and brazing machine setters, operators, and tenders (including workers who operate laser cutters or laser-beam machines) set up or operate welding, soldering, or brazing machines or robots that weld, braze, solder, or heat treat metal products, components, or assemblies.

Heat treating equipment setters, operators, and tenders set up or operate heating equipment, such as heat treating furnaces, flame-hardening machines, induction machines, soaking pits, or vacuum equipment, to temper, harden, anneal, or heat-treat metal or plastic objects.

Plating and coating machine setters, operators, and tenders set up or operate plating or coating machines to coat metal or plastic products with zinc, copper, nickel, or some other metal to protect or decorate surfaces (includes electrolytic processes).

 



 

Work Environment for Metal and Plastic Machine Workers

Metal and plastic machine workers held about 1.0 million jobs in 2016. Employment in the detailed occupations that make up metal and plastic machine workers was distributed as follows:

Cutting, punching, and press machine setters, operators, and tenders, metal and plastic 192,700
Computer-controlled machine tool operators, metal and plastic 145,700
Molding, coremaking, and casting machine setters, operators, and tenders, metal and plastic 145,400
Multiple machine tool setters, operators, and tenders, metal and plastic 117,800
Grinding, lapping, polishing, and buffing machine tool setters, operators, and tenders, metal and plastic 76,200
Extruding and drawing machine setters, operators, and tenders, metal and plastic 72,300
Welding, soldering, and brazing machine setters, operators, and tenders 49,200
Plating and coating machine setters, operators, and tenders, metal and plastic 35,300
Lathe and turning machine tool setters, operators, and tenders, metal and plastic 33,700
Rolling machine setters, operators, and tenders, metal and plastic 29,000
Computer numerically controlled machine tool programmers, metal and plastic 25,100
Heat treating equipment setters, operators, and tenders, metal and plastic 19,800
Forging machine setters, operators, and tenders, metal and plastic 19,200
Metal-refining furnace operators and tenders 17,700
Milling and planing machine setters, operators, and tenders, metal and plastic 17,600
Foundry mold and coremakers 12,500
Drilling and boring machine tool setters, operators, and tenders, metal and plastic 12,300
Pourers and casters, metal 8,400
Model makers, metal and plastic 6,300
Patternmakers, metal and plastic 3,400

The largest employers of metal and plastic machine workers were as follows:

Fabricated metal product manufacturing 26%
Plastics and rubber products manufacturing 15
Transportation equipment manufacturing 14
Primary metal manufacturing 12
Machinery manufacturing 12

These workers often operate powerful, high-speed machines that can be dangerous, so they must observe safety rules. Operators usually wear protective equipment, such as safety glasses, earplugs, and steel-toed boots to protect them from flying particles of metal or plastic, machine noise, and heavy objects, respectively.

Other required safety equipment varies by work setting and machine. For example, respirators are common for those in the plastics industry who work near materials that emit dangerous fumes or dust.

Work Schedules

Most metal and plastic machine workers are employed full time. Overtime is common, and because many manufacturers run their machinery for extended periods, evening and weekend work is also common.

 


 

How To Become a Metal or Plastic Machine Worker

Most metal and plastic workers have a high school diploma and learn through on-the-job training typically lasting a year. Computer numerically controlled (CNC) machine tool programmers, however, typically need to complete courses beyond high school.

Education

Although most metal and plastic machine workers typically have a high school diploma, many computer numerically controlled machine tool programmers usually need to complete coursework beyond high school. Some community colleges and other schools offer courses and certificate programs in operating metal and plastics machines including CNC programming.

For most metal and plastic machine workers, high school courses in computer programming, vocational technology, algebra, geometry, trigonometry, and basic statistics are considered useful.

Training

Machine operator trainees usually begin by watching and helping experienced workers on the job. Under supervision, they may start by supplying materials, starting and stopping the machines, or by removing finished products. Then they advance to more difficult tasks that operators perform, such as adjusting feed speeds, changing cutting tools, and inspecting a finished product for defects. Eventually, some develop the skills and experience to set up machines.

The complexity of the equipment usually determines the time required to become an operator. Some operators and tenders are trained on basic machine operations and functions in a few months, but other workers, such as computer-controlled machine tool operators, may need up to a year to become trained.

As the manufacturing process continues to utilize more computerized machinery, training on computer-aided design (CAD), computer-aided manufacturing (CAM), and CNC machines can be helpful.

Licenses, Certifications, and Registrations

Certification can show competence and can be helpful for advancement. The National Institute for Metalworking Skills  (NIMS) offers certification in numerous metalworking specializations.

Advancement

Advancement usually includes higher pay and more responsibilities. With experience and expertise, workers can become trainees for more advanced positions. It is common for machine operators to move into setup or machinery maintenance positions. Setup workers may become industrial machinery mechanics and maintenance workers, or machinists or tool and die makers.

Experienced workers with good communication and analytical skills may move into supervisory positions.

Important Qualities

Computer skills. Metal and plastic machine workers often must be able to use programmable devices, computers, and robots on the factory floor.

Dexterity. Metal and plastic machine workers who work in metal and plastic machined goods manufacturing use precise hand movements to make the necessary shapes, cuts, and edges that designs require.

Mechanical skills. Metal and plastic machine workers set up and operate machinery. They must be comfortable working with machines and have a good understanding of how the machines and all their parts work.

Physical stamina. Metal and plastic machine workers must be able to stand for long periods and perform repetitive work.

Physical strength. Metal and plastic machine workers must be strong enough to guide and load heavy and bulky parts and materials into machines.

 

 

 

 

 

"Metal and Plastic Machine Workers"   SOC:  51-4061     OOH Code: U296

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