Metal Joining × Strengths: Physical Stamina & Endurance
For Those with High Physical Stamina & Endurance
This collection features jobs that may suit those who are relatively comfortable with physical work and sustaining activity for extended periods.
Physical stamina manifests in various ways. Some situations require standing for long hours, while others involve carrying heavy objects. Quick, burst movements may be needed, or endurance may be required. Additionally, mental stamina to maintain concentration for extended periods is also an important element alongside physical stamina.
The jobs introduced here tend to involve more opportunities to use your body or extended activity periods. Explore where you can utilize your stamina and endurance.
9 jobs found.
Metal Riveting Worker
A manufacturing job that joins metal parts using press or rivet processing to perform product assembly and structural component manufacturing.
Metal Joint Manufacturing Worker
A technical job that uses press machines, cutting machines, welding machines, etc., to manufacture, finish, and inspect metal joints for construction and machinery.
Oxygen Welder
A manufacturing job that uses gas fuel and oxygen to melt metal members for joining or shaping.
Resistance Welder
Manufacturing technician who locally heats and upsets metal parts through electrodes to firmly join them.
Thermite Welder
Specialized profession that joins metal parts using high-temperature energy from thermite reactions.
Sheet Metal Solderer
Manufacturing job that joins sheet metal parts by soldering or brazing and assembles metal products.
Plasma Welder
Manufacturing technician who melts and joins metal components at high temperatures using plasma arc.
MAG Welder
MAG welders specialize in gas shielded arc welding, which melts and joins base metal using wire electrodes and arc heat under shielding gas. They are mainly engaged in the manufacturing and repair of structures and machine parts.
Brazing Worker
A skilled craft job that joins and repairs metal parts using a burner and flux through high-temperature brazing.