1926.914—Definitions applicable to this subpart.
(a)
American Table of Distances (also known as Quantity Distance Tables) means American Table of Distances for Storage of Explosives as revised and approved by the Institute of the Makers of Explosives, June 5, 1964.
(b) Approved storage facility—
A facility for the storage of explosive materials conforming to the requirements of this part and covered by a license or permit issued under authority of the Bureau of Alcohol, Tobacco and Firearms. (See 27 CFR part 55 )
(d) Blaster—
The person or persons authorized to use explosives for blasting purposes and meeting the qualifications contained in § 1926.901.
(e) Blasting agent—
A blasting agent is any material or mixture consisting of a fuel and oxidizer used for blasting, but not classified an explosive and in which none of the ingredients is classified as an explosive provided the furnished (mixed) product cannot be detonated with a No. 8 test blasting cap when confined. A common blasting agent presently in use is a mixture of ammonium nitrate (NH4 NO3) and carbonaceous combustibles, such as fuel oil or coal, and may either be procured, premixed and packaged from explosives companies or mixed in the field.
(f) Blasting cap—
A metallic tube closed at one end, containing a charge of one or more detonating compounds, and designed for and capable of detonation from the sparks or flame from a safety fuse inserted and crimped into the open end.
(g) Block holing—
The breaking of boulders by firing a charge of explosives that has been loaded in a drill hole.
(h) Conveyance—
Any unit for transporting explosives or blasting agents, including but not limited to trucks, trailers, rail cars, barges, and vessels.
(i) Detonating cord—
A flexible cord containing a center core of high explosives which when detonated, will have sufficient strength to detonate other cap-sensitive explosives with which it is in contact.
(j) Detonator—
Blasting caps, electric blasting caps, delay electric blasting caps, and nonelectric delay blasting caps.
(k) Electric blasting cap—
A blasting cap designed for and capable of detonation by means of an electric current.
(1)
Bus wire. An expendable wire, used in parallel or series, in parallel circuits, to which are connected the leg wires of electric blasting caps.
(2)
Connecting wire. An insulated expendable wire used between electric blasting caps and the leading wires or between the bus wire and the leading wires.
(3)
Leading wire. An insulated wire used between the electric power source and the electric blasting cap circuit.
(4)
Permanent blasting wire. A permanently mounted insulated wire used between the electric power source and the electric blasting cap circuit.
(m) Electric delay blasting caps—
Caps designed to detonate at a predetermined period of time after energy is applied to the ignition system.
(n) Explosives—
(1)
Any chemical compound, mixture, or device, the primary or common purpose of which is to function by explosion; that is, with substantially instantaneous release of gas and heat, unless such compound, mixture or device is otherwise specifically classified by the U.S. Department of Transportation.
(2)
All material which is classified as Class A, Class B, and Class C Explosives by the U.S. Department of Transportation.
Class A Explosives. Possessing detonating hazard, such as dynamite, nitroglycerin, picric acid, lead azide, fulminate of mercury, black powder, blasting caps, and detonating primers.
Class B Explosives. Possessing flammable hazard, such as propellant explosives, including some smokeless propellants.
Class C Explosives. Include certain types of manufactured articles which contain Class A or Class B explosives, or both, as components, but in restricted quantities.
(p) Magazine—
Any building or structure, other than an explosives manufacturing building, used for the storage of explosives.
(r)
Mud-capping (sometimes known as bulldozing, adobe blasting, or dobying). The blasting of boulders by placing a quantity of explosives against a rock, boulder, or other object without confining the explosives in a drill hole.
(s) Nonelectric delay blasting cap—
A blasting cap with an integral delay element in conjunction with and capable of being detonated by a detonation impulse or signal from miniaturized detonating cord.
(t) Primary blasting—
The blasting operation by which the original rock formation is dislodged from its natural location.
(u) Primer—
A cartridge or container of explosives into which a detonator or detonating cord is inserted or attached.
(v) Safety fuse—
A flexible cord containing an internal burning medium by which fire is conveyed at a continuous and uniform rate for the purpose of firing blasting caps.
(w) Secondary blasting—
The reduction of oversize material by the use of explosives to the dimension required for handling, including mudcapping and blockholing.
(x) Stemming—
A suitable inert incombustible material or device used to confine or separate explosives in a drill hole, or to cover explosives in mud-capping.
(y) Springing—
The creation of a pocket in the bottom of a drill hole by the use of a moderate quantity of explosives in order that larger quantities or explosives may be inserted therein.
(z) Water gels, or slurry explosives—
A wide variety of materials used for blasting. They all contain substantial proportions of water and high proportions of ammonium nitrate, some of which is in solution in the water. Two broad classes of water gels are: (1) Those which are sensitized by a material classed as an explosive, such as TNT or smokeless powder, and (2) those which contain no ingredient classified as an explosive; these are sensitized with metals such as aluminum or with other fuels. Water gels may be premixed at an explosives plant or mixed at the site immediately before delivery into the bore hole.
(aa) Semiconductive hose.
Semiconductive hose—a hose with an electrical resistance high enough to limit flow of stray electric currents to safe levels, yet not so high as to prevent drainage of static electric charges to ground; hose of not more than 2 megohms resistance over its entire length and of not less than 5,000 ohms per foot meets the requirement.