DE180452A - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

CLASS 21 /. GROUP

ISADOR LADOFF in SCHENECTADY and JAMES Mac NAUGHTON in NEW YORK.

Metal electrode for electric arc lamps. Patented in the German Empire on January 6, 1904.

recognized on the basis of the registration in America on December 2, 1903.

The subject of the present invention is a metal electrode for electrical Arc lamps.

A large number of experiments established the fact that, for example the titanium has properties which when this metal is used, when it is chemically is not combined with carbon, for the production of arc light electrodes in the Comparison with other materials used for production with the same energy consumption result in a remarkable increase in candle strength and burn time. Apart from that mechanically very resistant electrodes can be made from titanium, see above that the manufacture is made easier and cheaper and the waste due to breakage is reduced "Since, furthermore, in the case of the arc formed between titanium electrodes, those present in the known carbon rods If the red lines of the spectrum disappear, the color of the light approaches that of the Sunlight.

The titanium electrodes for arc light are manufactured in the following way:

Since the titanium itself is known to be a relatively poor conductor and only can be very difficult to produce in the pure state, so is the present invention an alloy of titanium and sol-

Chen metals, which have a higher conductivity, z. B. titanium and iron are used.

This alloy is pulverized and a suitable amount of a binder is added, e.g. B. water, glycerine, tar, linseed oil o. The like., Whereby the powdered alloy is made malleable, so that the material can be pressed into the desired shape in suitable forms by hydraulic or other means in a similar manner, as well as the known carbon rods getting produced. The rods thus pressed are dried in the open air at room temperature for several hours, it being important to avoid drying them too quickly, which would spoil the shape of the rods. The bars are then dried in an oven at a temperature of about 200 ^° C. for about 48 hours, after which the bars are carefully packed in carbon and exposed to ^{a temperature of 1200 to 1500 ° C. for two days and two nights.} The sticks are then cleaned and are then ready for use. They can be used in an ordinary arc lamp.

It is advisable to use a small amount of the powdered alloy mentioned Add charcoal in a ratio of about 5 percent. However, when the Her- ^ o

Position of the bars uses a titanium iron alloy, which is produced by the carbon reduction process is obtained, the addition of coal is not necessary. Of course Instead of iron, other metals can also be used to alloy with the titanium. The rods can also, after the alloy has previously been melted, immediately be poured into molds, and

ίο the carbon can in this case molten mass are fed.

The percentage of titanium can vary between wide limits without affecting the advantages mentioned are eliminated. Experiments have shown that if 15 to 80 percent metallic titanium is contained in the rod, excellent results can be obtained.

That suggestions have been made for titanium chemically bound with carbon, which is known under the name of titanium carbide, for the production of arc light electrodes or metallic ferrous titanium as an additive to mainly coal It is known to use electrodes. It is therefore expressly noted that the subject of this invention forming electrodes, the alloy forms the essential part of the electrodes and that titanium is not chemically bonded to carbon.

Claims (2)

Patent Claims: ι. Metal electrode for electric arc lamps, characterized in that the same is made of an alloy of titanium with another, a higher electrical Conductivity-possessing metal. 2. Electrode according to claim 1, characterized in that the same consists of a Alloy consists of titanium and iron, the amount of titanium being not less than 15 percent and no more than 80 percent of the entire electrode.