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Ferris Rod

$19.95

A flint and steel fire starter kit is a traditional tool used to create sparks for igniting a fire.

Ships free

Very light weight and portable, will fit in your pocket and only weighs 3 ounces

How It Works

The fire starter relies on the principle of creating high-temperature sparks to ignite a fire. Here's the process:

  1. Striking Action:

    • The steel is struck against the flint at a sharp angle.

    • The friction and impact cause small particles of the steel to shave off.

  2. Sparks Generation:

    • The shaved-off steel particles are heated to high temperatures (up to 2,500°F or 1,370°C) due to the friction and the hardness of the flint.

    • These particles become glowing sparks.

  3. Ignition:

    • Direct the sparks onto a flammable material

Quantity:
Add To Cart

A flint and steel fire starter kit is a traditional tool used to create sparks for igniting a fire.

Ships free

Very light weight and portable, will fit in your pocket and only weighs 3 ounces

How It Works

The fire starter relies on the principle of creating high-temperature sparks to ignite a fire. Here's the process:

  1. Striking Action:

    • The steel is struck against the flint at a sharp angle.

    • The friction and impact cause small particles of the steel to shave off.

  2. Sparks Generation:

    • The shaved-off steel particles are heated to high temperatures (up to 2,500°F or 1,370°C) due to the friction and the hardness of the flint.

    • These particles become glowing sparks.

  3. Ignition:

    • Direct the sparks onto a flammable material

A flint and steel fire starter kit is a traditional tool used to create sparks for igniting a fire.

Ships free

Very light weight and portable, will fit in your pocket and only weighs 3 ounces

How It Works

The fire starter relies on the principle of creating high-temperature sparks to ignite a fire. Here's the process:

  1. Striking Action:

    • The steel is struck against the flint at a sharp angle.

    • The friction and impact cause small particles of the steel to shave off.

  2. Sparks Generation:

    • The shaved-off steel particles are heated to high temperatures (up to 2,500°F or 1,370°C) due to the friction and the hardness of the flint.

    • These particles become glowing sparks.

  3. Ignition:

    • Direct the sparks onto a flammable material