Metal and Plastic Machine Workers

Summary

Metal and plastic machine workers set up and operate automated and computer-controlled machinery.

Quick Facts: Metal and Plastic Machine Workers
2010 Median Pay	$31,910 per year $15.34 per hour
Entry-Level Education	High school diploma or equivalent
Work Experience in a Related Occupation	None
On-the-job Training	See How to Become One
Number of Jobs, 2010	939,700
Job Outlook, 2010-20	6% (Slower than average)
Employment Change, 2010-20	56,100

What Metal and Plastic Machine Workers Do

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

Work Environment

Metal and plastic machine workers are employed mainly in factories. Although the work is generally not dangerous, hazards exist and workers must adhere to safety standards. Most work full time, and schedules may include evenings and weekends.

How to Become a Metal or Plastic Machine Worker

A few weeks of on-the-job training are enough for most workers to learn basic machine operations, but 1 year or more is required to become highly skilled. Although a high school diploma is not required, employers prefer to hire workers who have one.

Pay

The median hourly wage of metal and plastic machine workers was $15.34 in May 2010.

Job Outlook

Employment of metal and plastic machine workers is projected to grow 6 percent from 2010 to 2020, slower than the average for all occupations. Employment will be affected by advances in technology, changing demand for the goods these workers produce, foreign competition, and the reorganization of production processes. Despite these factors, job opportunities should be good for skilled and certified workers.

Similar Occupations

Compare the job duties, education, job growth, and pay of metal and plastic machine workers with similar occupations.

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Contacts for More Information

Learn more about metal and plastic machine workers by contacting these additional resources.

What Metal and Plastic Machine Workers Do About this section

Metal and plastic machine workers monitor and adjust machines during operation, detecting malfunctions.

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 and monitor them for unusual sound or vibration
• Lift material onto machines, manually or with a hoist
• Operate metal or plastic molding, casting, or coremaking machines
• Adjust the machines’ speed and other settings
• Adjust cutting machine settings to account for irregularities
• Stop machines and remove finished products
• Test and measure finished products
• 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.

Although many workers both set up and operate the machines, some specialize in one of the following job types:

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 place it back into the machine.

New tools are produced by tool and die makers. For more information, see the profile on machinists and 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 produces. 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. For more information, see the profile on industrial machinery mechanics and maintenance workers. 

Setters, operators, and tenders usually are identified by the type of machine they work with. Job duties usually 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. Increasing automation allows machine setters to operate multiple machines at the same time.

In addition, newer 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 wider range of skills.

The following are types of metal and plastic machine workers:

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

Computer numerically controlled machine tool programmers, metal and plastic develop 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, metal and plastic set up or operate machines to extrude (pull out) or draw thermoplastic or metal materials into tubes, rods, hoses, wire, bars, or structural shapes. 

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

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

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

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

Milling and planing machine setters, operators, and tenders, metal and plastic 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 or oxygen furnaces to melt and refine metal before casting or to produce specified types of steel.

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

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

Patternmakers, metal and plastic lay out, machine, fit, and assemble castings and parts to metal or plastic foundry patterns, coreboxes, or match plates.

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, metal and plastic 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, metal and plastic 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, metal and plastic 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, metal and plastic 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 About this section

Metal and plastic machine workers typically work in a well-ventilated environment.

Metal and plastic machine workers held about 939,700 jobs in 2010. Nearly all worked in manufacturing industries.

Employment in the detailed occupations that make up this group was distributed as follows:

Metal and plastic machine workers are employed mainly in factories. Although the work is generally not dangerous, hazards exist and workers must adhere to safety standards. Most work in areas that are clean, well lit, and well ventilated.

Injuries

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

Many modern machines are enclosed, minimizing the exposure of workers to noise, dust, and lubricants used during machining.

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 during regular business hours. Overtime is common, and because many manufacturers run the machinery long hours, evening and weekend work also is common.

How to Become a Metal or Plastic Machine Worker About this section

Many workers attend vocational or trade school, learning to read blueprints and use computerized machinery.

A few weeks of on-the-job training are enough for most workers to learn basic machine operations, but 1 year or more is required to become highly skilled. Although a high school diploma is not required, employers prefer to hire workers who have one.

Education

For jobs as machine setters, operators, and tenders, employers generally prefer workers who have a high school diploma. Those interested in this occupation can improve their employment opportunities by completing high school courses in shop and blueprint reading and by gaining a working knowledge of the properties of metals and plastics. A solid math background, including courses in algebra, geometry, trigonometry, and basic statistics, also is useful, along with experience working with computers.

Some community colleges and other schools offer courses and certificate programs in operating metal and plastics machines.

Training

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

It is largely the complexity of the equipment that determines the time required to become an operator. Most operators learn the basic machine operations and functions in a few weeks, but they may need a year or more to become skilled operators or to advance to the more highly skilled job of setter.

In addition to providing on-the-job training, employers may pay for some machine operators to attend classes. Other employers prefer to hire workers who have completed or are enrolled in a training program.

As the manufacturing process continues to advance with computerized machinery, knowledge of computer-aided design (CAD), computer-aided manufacturing (CAM), and computer numerically controlled (CNC) machines also can be helpful.   

Certification

Although certification is not required, a growing number of employers prefer that applicants become certified. Certification can show competence and professionalism and can be helpful for advancement. The National Institute for Metalworking Skills (NIMS) has developed skills standards in 24 operational areas and offers 52 skills certifications.

The Fabricators & Manufacturers Association International also has developed a Precision Sheet Metal Operator (PSMO) certification program.

Advancement

Advancement usually includes higher pay and a wider range of responsibilities. With experience and expertise, workers can become trainees for more highly skilled positions. For example, it is common for machine operators to move into setup or machinery maintenance positions. Setup workers may move into maintenance, machinist, or tool and die maker roles. For more information, see the profiles on industrial machinery mechanics and maintenance workers, millwrights, and machinists and tool and die makers.

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

Important Qualities

Computer skills. Modern technology systems require that metal and plastic machine workers be able to use programmable devices, computers, and robots on the factory floor.

Mechanical skills. Although modern technology has brought a lot of computer-based systems to this occupation, metal and plastic machine workers still 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 strength. Although most material handling is done using automated systems or is mechanically aided, some metal and plastic machine workers must be strong enough to guide and load heavy and bulky parts and materials into machines.

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

Pay About this section

The median hourly wage of metal and plastic machine workers was $15.34 in May 2010. 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 $9.96, and the top 10 percent earned more than $23.57.

Wages for metal and plastic machine workers vary by size of the company, union status, industry, and skill level and experience of the operator.

In May 2010, median hourly wages for metal and plastic machine workers were as follows:

• $22.07 for computer numerically controlled machine tool programmers, metal and plastic
• $20.55 for model makers, metal and plastic
• $18.49 for metal-refining furnace operators and tenders
• $17.88 for patternmakers, metal and plastic
• $17.63 for rolling machine setters, operators, and tenders, metal and plastic
• $17.47 for milling and planing machine setters, operators, and tenders, metal and plastic
• $16.70 for computer-controlled machine tool operators, metal and plastic
• $16.66 for lathe and turning machine tool setters, operators, and tenders, metal and plastic
• $16.36 for pourers and casters, metal
• $16.26 for welding, soldering, and brazing machine setters, operators, and tenders
• $16.13 for forging machine setters, operators, and tenders, metal and plastic
• $15.86 for heat treating equipment setters, operators, and tenders, metal and plastic
• $15.56 for drilling and boring machine tool setters, operators, and tenders, metal and plastic
• $15.30 for multiple machine tool setters, operators, and tenders, metal and plastic
• $15.26 for extruding and drawing machine setters, operators, and tenders, metal and plastic
• $14.74 for grinding, lapping, polishing, and buffing machine tool setters, operators, and tenders, metal and plastic
• $14.66 for foundry mold and coremakers
• $14.12 for cutting, punching, and press machine setters, operators, and tenders, metal and plastic
• $13.93 for plating and coating machine setters, operators, and tenders, metal and plastic
• $13.54 for molding, coremaking, and casting machine setters, operators, and tenders, metal and plastic

Most metal and plastic machine workers are employed full time during regular business hours. Overtime is common, and because many manufacturers run the machinery long hours, evening and weekend work also is common.

Job Outlook About this section

Employment of metal and plastic machine workers is projected to grow 6 percent from 2010 to 2020, slower than the average for all occupations. Employment will be affected by advances in technology, changing demand for the goods these workers produce, foreign competition, and the reorganization of production processes.

One of the most important factors influencing employment growth in these occupations is the use of labor-saving machinery. Many firms are adopting new technologies, such as computer-controlled machine tools and robots, to improve quality, lower production costs, and remain competitive. The switch to computer-controlled machinery requires computer programmers instead of machine setters, operators, and tenders. The lower-skilled manual machine tool operator and tender jobs are more likely to be eliminated by these new technologies because the computer-controlled machinery does the work more effectively.

The demand for metal and plastic machine workers also is affected by the demand for the parts they produce. Both the plastic and metal manufacturing industries face stiff foreign competition that is limiting the orders for parts produced in this country. Some U.S. manufacturers have recently sent their production to foreign countries, limiting jobs for machine setters and operators.

Job Prospects

Despite slower than average employment growth, a number of these jobs are expected to become available for highly skilled workers because of an expected increase in retirements, primarily of baby boomers, in the coming years.

In addition, workers who have a thorough background in machine operations, certifications from industry associations, and a good working knowledge of the properties of metals and plastics should have the best job opportunities.

Contacts for More Information About this section

For more information about metal and plastic machine workers, including training and certification, visit 

Fabricators & Manufacturers Association International (FMA)

National Institute for Metalworking Skills (NIMS)

For general information about manufacturing careers, machinery, and equipment, visit 

Association for Manufacturing Technology (AMT)

National Tooling and Machining Association (NTMA)

Precision Machined Products Association (PMPA)

Precision Metalforming Association (PMA)