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To test the power of each type of cap seat a dry ball, then fire each different cap and measure how far the dry ball is moved up the bore Just kidding
Yeah thatās not funny! It hasnāt happened yet but I imagine pulling a hexagonal bullet from a hexagonal bore would be dreadfulTo test the power of each type of cap seat a dry ball, then fire each different cap and measure how far the dry ball is moved up the bore Just kidding
Smokeless powder is NOT classified as an explosive. It burns at different rates depending on the powder & additives turning into an expanding gas that pushes the projectile down the barrel. If in a fire & it is not contained it simply burns allowing the expanding gas to dissipate & it does not explode. Cans or bottles for smokeless are designed to "pop" open when in a fire to relieve the gas pressure. Some smokeless powder is even very hard to light with a match. Black powder IS classified as an explosive & burns at a much faster rate taking very little containment to develop large pressure levels. It also ignites at very low temperature compare to smokeless. The different granule size makes for very small changes in burn rate & does nothing to limit it's explosive qualities.Actually, smokeless powder is an explosive. Black powder burns which is why black powder is available in different grain powder sizes.
Just bought some rws #11 caps
Hope they are as good as cci reg and mags
These rifles which fire conical bullets of any type ,and others like them ,develop higher breach pressures than round ball rifles and tend to burn out nipples fairly quickly , I have had nipples increase in size as I shoot and the shots drop about 1" per shot .My .40 Gibbs would burn out a nipple in 10 shots . Platinum lined nipples last and last and I never had an issue with nipple burn out again .t. Iām awaiting the delivery of some platinum lined nipples,
What kinda smoke are you hidden by? Just tried hammering smokeless powder on an anvil and nothing, figured as much. Tried it on black powder, no pow or flame but what appeared to be a minute amount of smoke and the tale smell of sulfur. The hammer really scatters the pile of powder when striking it. YMMVPlace a small amount of smokeless powder on an anvil or other hard surface and then hit is with a hammer. When hit, it will detonate which means that it is explosive. Do the same with black powder and when hit with a hammer, nothing happens. It is not an explosive. The high protection requirements for black powder are because it is an accelerant, that is, when exposed to fire it burns very rapidly and very hot. The storage requirements are to reduce risks to property and firemen involved with fires.
The "Hammer" test??? That's a new one!! So you are saying that the people whose job & responsibility is to classify explosives are all wrong? You couldn't be more misinformed, as Whitworth's "test" confirmed.Place a small amount of smokeless powder on an anvil or other hard surface and then hit is with a hammer. When hit, it will detonate which means that it is explosive. Do the same with black powder and when hit with a hammer, nothing happens. It is not an explosive. The high protection requirements for black powder are because it is an accelerant, that is, when exposed to fire it burns very rapidly and very hot. The storage requirements are to reduce risks to property and firemen involved with fires.
Place a small amount of smokeless powder on an anvil or other hard surface and then hit is with a hammer. When hit, it will detonate which means that it is explosive. Do the same with black powder and when hit with a hammer, nothing happens. It is not an explosive. The high protection requirements for black powder are because it is an Accelerant, that is, when exposed to fire it burns very rapidly and very hot. The storage requirements are to reduce risks to property and firemen involved with fires.
Danny those dots on the roll caps were black but were not black powder . This from Wikipedia: Armstrongs Mixture is often used today as the explosive, but previously the tiny powder charge was a simple mixture of potassium perchlorate, sulfur, and antimony sulfide sandwiched between two paper layers which hold in the gases long enough to give a sound report when the cap is struck.
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