Post by Admin on Aug 18, 2019 7:05:08 GMT
Manufacture of black powder
Manufacture of black powder was accomplished originally by hand methods. Ingredients were ground together with a mortar and pestle. The next step was to use crushing devices of wood (wooden stamps), also operated by hand, in wooden or stone bowls. The stamping process was gradually mechanized and, about 1435, the first powder mill driven by water power was erected near Nuremberg, Germany.
Metallic crushing devices, introduced in the early 1800s, slowly and steadily replaced the wooden stamp mills.
In the modern process, charcoal and sulfur are placed in a hollow drum along with heavy steel balls. As the drum rotates, the steel balls pulverize the contents; this device is called a ball mill. The saltpetre is crushed separately by heavy steel rollers. Next, a mixture of several hundred pounds of saltpetre, charcoal, and sulfur is placed in a heavy iron device shaped like a cooking pan. There it is continuously turned over by devices called plows, then ground and mixed by two rotating iron wheels, which weigh from 10 to 12 tons each. The process takes several hours; water is added periodically to keep the mixture moist
Manufacture of black powder was accomplished originally by hand methods. Ingredients were ground together with a mortar and pestle. The next step was to use crushing devices of wood (wooden stamps), also operated by hand, in wooden or stone bowls. The stamping process was gradually mechanized and, about 1435, the first powder mill driven by water power was erected near Nuremberg, Germany.
Metallic crushing devices, introduced in the early 1800s, slowly and steadily replaced the wooden stamp mills.
In the modern process, charcoal and sulfur are placed in a hollow drum along with heavy steel balls. As the drum rotates, the steel balls pulverize the contents; this device is called a ball mill. The saltpetre is crushed separately by heavy steel rollers. Next, a mixture of several hundred pounds of saltpetre, charcoal, and sulfur is placed in a heavy iron device shaped like a cooking pan. There it is continuously turned over by devices called plows, then ground and mixed by two rotating iron wheels, which weigh from 10 to 12 tons each. The process takes several hours; water is added periodically to keep the mixture moist
The product of the mills is next put through wooden rolls to break up the larger lumps and is then formed into cakes under high pressure—namely, from about 210 to 280 kilograms per square centimetre (3,000 to 4,000 pounds per square inch) of pressure. Coarse-toothed rolls crack the cakes into manageable pieces and the corning mill, which contains rolls of several different dimensions, reduces them to the sizes desired.
Glazing (the next operation) consists of tumbling the grains for several hours in large wooden cylinders, during which friction rounds off the corners, and, aided by forced air circulation, brings the powder to a specified moisture content. The term glazing derives from the fact that graphite is added during this process, forming a thin film over the individual powder grains. Glazed powder flows more readily than unglazed powder and is more moisture resistant.
Glazing (the next operation) consists of tumbling the grains for several hours in large wooden cylinders, during which friction rounds off the corners, and, aided by forced air circulation, brings the powder to a specified moisture content. The term glazing derives from the fact that graphite is added during this process, forming a thin film over the individual powder grains. Glazed powder flows more readily than unglazed powder and is more moisture resistant.
After glazing, the powder is graded by sieves into different sizes and packaged, usually in kegs.
Because the burning of black powder is a surface phenomenon, a fine granulation burns faster than a coarse one. Grain sizes are designated as F, 2F, etc., up to 7F, which is the finest, and from C up as the grains become larger. For the A powder the letter indicating the fineness becomes 3FA, etc., and if the powder is glazed, this is followed by the letter g—e.g., 3FAg. For many years the B blasting material was offered in pellet as well as granular form. Four pellets, each 5 centimetres (2 inches) in length and from 2.75 to 6.25 centimetres (1.1 to 2.5 inches) in diameter, were packed in waxed paper cartridges. Each pellet had a hole through its centre to accommodate a safety fuse or an electric device used to ignite the powder. Pelleted powder was used almost entirely in underground coal mines, but now regulations generally prohibit both it and the granular type.
Because the burning of black powder is a surface phenomenon, a fine granulation burns faster than a coarse one. Grain sizes are designated as F, 2F, etc., up to 7F, which is the finest, and from C up as the grains become larger. For the A powder the letter indicating the fineness becomes 3FA, etc., and if the powder is glazed, this is followed by the letter g—e.g., 3FAg. For many years the B blasting material was offered in pellet as well as granular form. Four pellets, each 5 centimetres (2 inches) in length and from 2.75 to 6.25 centimetres (1.1 to 2.5 inches) in diameter, were packed in waxed paper cartridges. Each pellet had a hole through its centre to accommodate a safety fuse or an electric device used to ignite the powder. Pelleted powder was used almost entirely in underground coal mines, but now regulations generally prohibit both it and the granular type.
Blackpowder burning in Vacuum chamber in Slow Motion
Making my own black powder at home! Combining Potassium Nitrate (75%) with Charcoal (15%) and Sulfur (10%) gives us a nice, slow-burning black powder! I have some big plans for this homemade black powder, but I’m saving that awesome-ness for another video. Make sure you hit that subscribe button, if you haven’t already. Thanks for watching and I’ll catch you guys next time. Oh, and PLEASE do NOT try this at home! Mixing black powder can be rather dangerous!
The Science Pirate’s DIY Black Powder (A nice, slow-burning black powder):
Potassium Nitrate (Saltpeter) – 40g (75% by weight)
Charcoal – 8g (15% by weight)
Sulfur – 5.3g (10% by weight)
Please note: particle size is critical to the burn rate! Smaller particles = faster burn. Larger particles = slower burn. So the amount of grinding / pulverization will greatly affect the speed with which the black powder burns. I didn’t grind the powders as fine as possible, which results in a black powder that burns vigorously, but at a slower rate. You’ll see why this is important soon…