DE276037C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 276037 CLASS 21 /. GROUP

Patented in the German Empire on July 27, 1913.

Tungsten filament of not round

Cross-section, e.g. B. ribbons and hollow fibers or wires, can not be so evenly in the Create a cross-section like round wires drawn through nozzles.

It has long been the practice to equalize carbon threads by making the thread heated in a carbonaceous atmosphere, with the thinnest parts of the thread

ίο Get hotter and stick to these more carbon precipitates than in the colder places, until the thread is evenly everywhere conducts electricity well and is therefore evenly thick. The layer deposited on the thread also has a cheaper light emission.

For tungsten, too, it has been suggested to make the filament by depositing tungsten Thicken gas compounds. But this method has the disadvantage that the The properties of the deposited metal in gases are quite different from those of the core material of the metal Wire or thread, and in general less favorable. The core can e.g. B. from ductile Tungsten exist, while the layer deposited on the thread is advantageous Property is missing.

The new procedure avoids this disadvantage by making the fundamentally different Treads away chemically to remove more tungsten from the thicker parts of the body than from the thinner ones, until the thread has obtained a uniform cross-section in this way. By doing There is a significant difference in removing the tungsten more from the thicker areas compared to the known method of making thick threads thinner by chemical treatment, whereby the thread is not becomes even, but keeps its unequal places.

Two embodiments of the method are described below, but without this the procedure should be limited to this.

One version is based on the observation that in hydrogen gas, which is a low Contains amount (at most a few percent) of oxygen, tungsten below certain temperatures (Red or white heat) is oxidized, while at slightly higher temperatures the the reducing power of hydrogen predominates. There is so to every salary of the Oxygen in hydrogen is a temperature at which the thread or ribbon of the gases are barely or barely attacked. If you now bring a thread or a band of unequal cross-section electrically to a temperature below this Occasional heat, the metal is so long on the surface in an electrically poorly conductive Oxygen connection transferred, in the thicker and therefore colder places stronger, until the equilibrium temperature is reached everywhere due to the deteriorated conductivity has reached, in which it has a uniform metallic cross-section. It is assumed that during the process by known means such. B. by Series resistors made of iron wire, an excessive decrease in the current strength is prevented, otherwise with increasing resistance of the thread or tape the developed in it

70

Claims (3)

Joule heat and therefore its temperature would not rise but fall. The oxide covering the surface of the thread or tape can be used in various ways, e.g. B.! By potassium hydroxide solution or gaseous hydrogen chloride, removed. The removal can also be done mechanically. The second embodiment is as follows. / The body to be leveled is - best ίο while turning - in a chemically or electrolytically aggressive liquid bath, e.g. B. in nitric acid of a suitable concentration, brought by electric current to a temperature at which the liquid still wets him. If the resistance of the conductor increases as a result of the attack of the liquid, then soon - but earlier in thinner areas, later in thicker areas - a temperature is reached at which the liquid can no longer attack due to the formation of gas bubbles. When all parts of the thread have reached this temperature, the thread is even in cross-section. The process is not limited to tungsten, but can also be used with other chemically similar metals, e.g. B. with molybdenum or tantalum apply. Electric incandescent lamps whose luminous bodies are leveled according to the method described have a better service life than those with non-leveled incandescent bodies, since the former do not have any weaker points that could cause the luminous body to burn out prematurely. Ρλτεν τ claims: 1. Process for leveling luminous bodies made of tungsten or similar metals, in particular made of ductile metal, characterized in that the luminous bodies passed through while being heated Current are subjected to chemical attack in such a way that the thicker, less heated parts of the luminous element be attacked more strongly than the thinner, more heated, until the leveling is reached sufficiently far. 2. The method according to claim 1, characterized in that the luminous body at at a suitable temperature electrically heated in hydrogen containing oxidizing gases whereupon the oxide formed is eliminated chemically or mechanically will. 3. The method according to claim 1, characterized in that the luminous body in an attacking liquid are heated electrically until the liquid not the incandescent body, which has become thinner and consequently hotter as a result of the attack more wetted.