Machinist or Tool and Die Maker

Machinists and tool and die makers set up and operate a variety of computer-controlled and mechanically controlled equipment to produce precision metal parts, instruments, and tools.

Duties

Machinists typically do the following:

  • Read detailed drawings or files, such as blueprints, sketches, and those for computer-aided design (CAD) and computer-aided manufacturing (CAM)
  • Set up, operate, and disassemble manual, automatic, and computer numerically controlled (CNC) machine tools
  • Align, secure, and adjust cutting tools and workpieces
  • Monitor the feed and speed of machines
  • Turn, mill, drill, shape, and grind machine parts to specifications
  • Verify that completed products meet requirements

Tool and die makers typically do the following:

  • Read detailed drawings or files—such as blueprints, sketches, specifications, and those for CAD and CAM—to make tools, molds, and dies
  • Compute and verify dimensions, sizes, shapes, and tolerances of workpieces
  • Set up, operate, and disassemble conventional, manual, and CNC machine tools
  • File, grind, and adjust parts so that they fit together
  • Test completed tools and dies to ensure that they meet specifications
  • Smooth and polish the surfaces of tools and dies

Machinists use lathes, milling machines, grinders, and other machine tools to produce precision metal parts. Many machinists must be able to use both manual and CNC machinery. CNC machines control the cutting tool speed and do all necessary cuts to create a part. The machinist programs instructions into the CNC machine to determine the cutting path, cutting speed, and feed rate.

Although workers may produce large quantities of one part, precision machinists often produce small batches or single items. The parts that machinists make include steel bolts, titanium bone screws, and automobile pistons.

Some machinists repair broken parts or make new parts that an industrial machinery mechanic discovers in a machine. The machinist refers to engineering drawings to create the replacement.

Some manufacturing processes use lasers, water jets, and electrified wires to cut the workpiece. As engineers design and build new types of machine tools, machinists must learn new machining properties and techniques.

Tool and die makers construct precision tools or metal forms, called dies, that are used to cut, shape, and mold metal, plastics, and other materials.

Tool and die makers use CAD to develop products and parts. They enter designs into computer programs that produce blueprints for the required tools and dies. CNC programmers, described in the metal and plastic machine workers profile, convert CAD designs into CAM programs that contain instructions for a sequence of cutting-tool operations. Machinists normally operate CNC machines, but tool and die makers often are trained to both operate CNC machines and write CNC programs and thus may do either task.

Work Environment

Machinists held about 342,600 jobs in 2021. The largest employers of machinists were as follows:

Machine shops 20%
Machinery manufacturing 19
Transportation equipment manufacturing          13
Employment services 5

Tool and die makers held about 65,100 jobs in 2021. The largest employers of tool and die makers were as follows:

Metalworking machinery manufacturing 19%
Motor vehicle parts manufacturing 18
Plastics product manufacturing 6
Machine shops; turned product; and screw, nut, and bolt manufacturing            5
Aerospace product and parts manufacturing 4

Injuries and Illnesses

Because machinists and tool and die makers may work with machine tools that present hazards, these workers must take precautions to avoid injuries. For example, workers must wear protective equipment, such as safety glasses to shield against bits of flying metal and earplugs to dampen the noise produced by machinery.

Work Schedules

Many machinists and tool and die makers work full time during regular business hours. However, some work nights and weekends in facilities that operate around the clock. Some work more than 40 hours a week.

Education and Training

Although machinists typically need a high school diploma to enter the occupation, tool and die makers also may need to complete postsecondary courses. Machinists and tool and die makers typically are trained on the job. Some learn through training or apprenticeship programs, vocational schools, or community and technical colleges.

Education

Machinists typically need a high school diploma or equivalent; tool and die makers also may need to complete postsecondary courses. High school courses in math, blueprint reading, metalworking, and CAD/CAM are considered useful.

Some community colleges and technical schools have 2-year degree programs or shorter nondegree certificate programs that train students to become machinists or tool and die makers. These programs usually teach design and how to read engineering drawings, the use of a variety of welding and cutting tools, and the programming and function of CNC machines.

Training

Machinists and tool and die makers typically gain competency through on-the-job training or an apprenticeship.

Trainees usually learn on the job, which may include technical instruction outside of typical work hours. Trainees often begin as machine operators and gradually take on more difficult assignments. Machinists and tool and die makers must be comfortable using computers to work with CAD/CAM technology, CNC machine tools, and computerized measuring machines. Some machinists become tool and die makers.

Some new workers enter apprenticeship programs, which are typically sponsored by an employer. Apprenticeship programs often consist of paid training on the job and related technical instruction lasting several years. The technical instruction may be provided in cooperation with local community colleges and vocational–technical schools. Workers typically need a high school diploma or equivalent to enter an apprenticeship.

Licenses, Certifications, and Registrations

Completing a certification program, though optional, allows machinists and tool and die makers to demonstrate competency and may be helpful for advancement. Colleges and organizations, such as the National Institute for Metalworking Skills (NIMS), offer certifications and credentials in CNC machine operation, CAD/CAM technology, and other relevant competencies.

Personality and Interests

Machinists and tool and die makers typically have an interest in the Building, Thinking and Organizing interest areas, according to the Holland Code framework. The Building interest area indicates a focus on working with tools and machines, and making or fixing practical things. The Thinking interest area indicates a focus on researching, investigating, and increasing the understanding of natural laws. The Organizing interest area indicates a focus on working with information and processes to keep things arranged in orderly systems.

If you are not sure whether you have a Building or Thinking or Organizing interest which might fit with a career as a machinist and tool and die maker, you can take a career test to measure your interests.

Machinists and tool and die makers should also possess the following specific qualities:

Analytical skills. Machinists and tool and die makers must understand highly technical electronic and written blueprints, models, and specifications, so they can craft precision tools and metal parts. 

Manual dexterity. The work of machinists and tool and die makers must be highly accurate. For example, machining parts may demand accuracy of .0001 inch, which requires workers’ precision, concentration, and dexterity.

Math and computer skills. Workers must have good math and computer skills to work with CAD/CAM technology, CNC machine tools, and computerized measuring machines.

Mechanical skills. Machinists and tool and die makers must be mechanically inclined. They operate milling machines, lathes, grinders, laser and water cutting machines, wire electrical discharge machines, and other machine tools. They also may use a variety of hand tools and power tools.

Physical stamina. The ability to endure long periods of standing and performing repetitious movements is important for machinists and tool and die makers.

Technical skills. Machinists and tool and die makers must understand computerized measuring machines and metalworking processes, such as stock removal, chip control, and heat treating and plating.

Pay

The median annual wage for machinists was $47,730 in May 2021. 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 $30,220, and the highest 10 percent earned more than $68,250.

The median annual wage for tool and die makers was $57,000 in May 2021. The lowest 10 percent earned less than $36,900, and the highest 10 percent earned more than $77,240.

In May 2021, the median annual wages for machinists in the top industries in which they worked were as follows:

Transportation equipment manufacturing             $49,010
Machinery manufacturing 47,700
Machine shops 47,510
Employment services 30,500

In May 2021, the median annual wages for tool and die makers in the top industries in which they worked were as follows:

Aerospace product and parts manufacturing $76,600
Motor vehicle parts manufacturing 60,390
Plastics product manufacturing 51,120
Machine shops; turned product; and screw, nut, and bolt manufacturing             49,970
Metalworking machinery manufacturing 49,190

The pay of apprentices is tied to their skill level. As they reach specific levels of performance and experience, their pay increases.

Many machinists and tool and die makers work full time during regular business hours. However, some work nights and weekends in facilities that operate around the clock. Some work more than 40 hours a week.

Job Outlook

Overall employment of machinists and tool and die makers is projected to show little or no change from 2021 to 2031.

Despite limited employment growth, about 44,100 openings for machinists and tool and die makers are projected each year, on average, over the decade. Most of those openings are expected to result from the need to replace workers who transfer to different occupations or exit the labor force, such as to retire. 

Employment

Projected employment of machinists and tool and die makers varies by occupation (see table).

Although machinists will be required to set up, monitor, and maintain systems, such as computer numerically controlled (CNC) machine tools, autoloaders, and high-speed machining, their employment growth is expected to be limited as improvements in these technologies increase these workers’ efficiency over the projections decade.

Employment of tool and die makers is expected to decline as advances in automation, including CNC machine tools, reduce demand for certain tasks that these workers do, such as programming how parts fit together.

For More Information

For details about apprenticeships or other work opportunities in this occupation, contact the offices of the state employment service, the state apprenticeship agency, or local businesses that employ machinists and tool and die makers. Apprenticeship information is available from the U.S. Department of Labor’s Apprenticeship program online or by phone at 877-872-5627. Visit Apprenticeship.gov to search for apprenticeship opportunities.

For more information about machinists and tool and die makers, including training and certification, visit 

Fabricators & Manufacturers Association, International (FMA)

Manufacturing Institute (MI)

National Institute for Metalworking Skills (NIMS)

For information about manufacturing careers, including machinery and tool and die makers, visit 

American Mold Builders Association (AMBA)

Association for Manufacturing Technology (AMT)

National Tooling and Machining Association (NTMA)

Precision Machined Products Association (PMPA)

Precision Metalforming Association (PMA)

FAQ

Where does this information come from?

The career information above is taken from the Bureau of Labor Statistics Occupational Outlook Handbook. This excellent resource for occupational data is published by the U.S. Department of Labor every two years. Truity periodically updates our site with information from the BLS database.

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I am not sure if this career is right for me. How can I decide?

There are many excellent tools available that will allow you to measure your interests, profile your personality, and match these traits with appropriate careers. On this site, you can take the Career Personality Profiler assessment, the Holland Code assessment, or the Photo Career Quiz.

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