The store will not work correctly when cookies are disabled.
This website uses cookies to keep you logged in, improve navigation, and anonymously analyze site usage. By using this site or clicking "Allow Cookies", you consent to these cookies on your device.Allow cookies with button below or Learn more.
We use cookies to make your experience better.To comply with the new e-Privacy directive, we need to ask for your consent to set the cookies.Learn more.
The Nupla Brass Head Hammer is a 4-pound non-sparking striking tool designed for use in volatile environments and precision metalworking applications. The malleable brass head delivers soft-impact strikes without creating sparks, fractures, or metal shards.
Built for safety-critical environments, this hammer combines a heavy brass striking face with a fiberglass handle protected by an overstrike guard. The brass material absorbs impact energy while remaining non-marring to finished surfaces, making it ideal for automotive work, metal fabrication, and maintenance operations where ferrous hammers could cause damage or ignition hazards.
Key Features
Non-Sparking Brass Head — Malleable brass construction prevents spark generation in flammable atmospheres and volatile work areas
Soft-Impact Striking — Brass material absorbs shock and won't mar or damage finished metal surfaces during assembly or adjustment work
Shatter-Resistant Design — Malleable brass head will not fracture or create dangerous metal shards when striking hardened surfaces
Fiberglass Handle — Durable fiberglass core with protective covering extends handle life and guards against overstrike damage
4-Pound Head Weight — Heavy striking face delivers effective force for metalworking and assembly tasks
Applications
Used by automotive technicians, metal fabricators, maintenance professionals, and contractors working in refineries, chemical plants, and other environments where spark generation poses a safety risk. Ideal for driving punches, setting bearings, aligning metal components, and general assembly work on finished surfaces.
