Mica Fuse:—­A convenient and widely used form of fuse is that shown in Fig. 216.  A mica slip has metal terminals at its ends and a fuse wire joins these terminals.  The fuse is inserted in the circuit by clamping the terminals under screws or sliding them between clips as in Figs. 217 and 218.  Advantages of this method of fuse mounting for protecting circuits needing small currents are that the fuse wire can be seen, the fuses are readily replaced when blown, and their mountings may be made compact.  As elements of a comprehensive protective system, however, the ordinary types of mica-slip fuses are objectionable because too short, and because they have no means of their own for extinguishing an arc which may follow the blowing of the fuses.  As protectors for use in distributing low potential currents from central-office power plants they are admirable.  By simple means, they may be made to announce audibly or visibly that they have operated.

[Illustration:  Fig. 216.  Mica Slip Fuse]

[Illustration:  Fig. 217.  Postal Type Mica Fuse]

[Illustration:  Fig. 218.  Western Union Type Mica Fuse]

Enclosed Fuses:—­If a fuse wire within an insulating tube be made to connect metal caps on that tube and the space around the tube be filled with a non-conducting powder, the gases of the vaporized fuse metal will be absorbed more quickly than when formed without such imbedding in a powder.  The filling of such a tubular fuse also muffles the explosion which occurs when the fuse is vaporized.

[Illustration:  Fig. 219.  Pair of Enclosed Fuses]

Fuses of the enclosed type, with or without filling, are widely used in power circuits generally and are recommended by fire insurance bodies.  Fig. 219 illustrates an arrester having a fuse of the enclosed type, this example being that of the H. W. Johns-Manville Company.

[Illustration Fig. 220.  Bank of Enclosed Fuses]

In telephony it is frequently necessary to mount a large number of fuses or other protective devices together in a restricted space.  In Fig. 220 a group of Western Electric tubular fuses, so mounted, is shown.  These fuses have ordinarily a carrying capacity of 6 or 7 amperes.  It is not expected that this arrester will blow because 6 or 7 amperes of abnormal currents are flowing through it and the apparatus to be protected.  What is intended is that the fuse shall withstand lightning discharges and when a foreign current passes through it, other apparatus will increase that current enough to blow the fuse.  It will be noticed that the fuses of Fig. 220 are open at the upper end, which is the end connected to the exposed wire of the line The fuses are closed at the lower end, which is the end connected to the apparatus.  When the fuse blows, its discharge is somewhat muffled by the lining of the tube, but enough explosion remains so that the heated gases, in driving outward, tend to break the arc which is established through the vaporized metal.