Glass tubes are produced in various types of glass and in diameters ranging from a few millimeters to several centimeters. In most production processes, an "infinitely long" glass tube is drawn directly from the melt, from which approximately 1.5 m long pieces are chopped off after passing a roller track up to the drawing machine. The three common methods differ regarding the drawing direction:
Drawing direction horizontal Danner process In the Danner process, the molten glass runs from the
feeder as a belt onto an obliquely downwardly inclined, rotating ceramic hollow cylinder, the Danner pipe. Through the hollow pipe, compressed air is blown to prevent the glass tube from collapsing. At the tip of the pipe the so-called drawing bulb is formed, from which the glass tube is drawn off in the free sag on a horizontal pulling line. If the drawing speed is kept constantly, an increase in the blow pressure causes larger diameters and smaller wall thicknesses; With this method, tube diameters between 2 and 60 mm can be realized:
Vello process In the Vello process, the glass runs through an annular opening from the bottom of the feeder. This opening is formed between the round outlet nozzle of the feeder and a height-adjustable hollow needle (also a mandrel). Here, the tube is "inflated" with compressed air as well. The glass tube which initially emerges in the vertical direction is then deflected into the horizontal position in the free sag. The nozzle mandrel is adjusted off the center of the drawing nozzle in order to produce a constant wall thicknesses after bending. With this method, tube diameters between 1.5 and 70 mm can be generated; The throughput is higher than it would have been with the Danner method. Furthermore, it is possible here to use glasses with highly volatile components, such as borates (borosilicate glass) and lead oxides (lead glass), since the temperatures at the drawing nozzle are lower than in the Danner muffle. Without a needle, glass rods can also be produced, whereby the diameter being adjusted via the nozzle as well as the drawing speed. Due to the vertical glass exit, down-draw processes are sporadically also listed under the general term "Vello", although there is no forcible deflection into the horizontal. Danner and Vello processes are used for the production of thin-walled glass tubes of relatively small diameter, with throughputs of up to 55 tonnes per day. The world record for the longest ever continuously drawn tube glass in one piece is 10 m hold by
Schott AG.
Drawing direction downwards (down-draw) The down-draw method is, in principle, the same as the Vello method, although here the glass tube is not deflected but is pulled off in the vertical direction. In the down-draw, the current world record is held by Schott AG with 460 mm. The achievable wall thicknesses for large outer diameters above 250 mm is about 10 mm. Larger wall thicknesses of up to 15 mm are possible for smaller outer diameters only. For borosilicate glass (35 mm diameter) a drawing speed of 0.3 m/min can be achieved.
Drawing direction vertically upwards (vertical drawing) Here, the glass tube is not formed by a mandrel but is drawn off from the free bath surface. A nozzle protrudes from below into a drawing nozzle, via which the air is blown into the glass tube. The nozzle also holds the drawing bulb so that it does not move out laterally. Since the quality and drawing speed achieved during the vertical tube drawing process are relatively low, this process has nowadays almost no practical significance.
Further procedures Glass tubes with very large diameters (20 to 100 cm), as required for plants of the chemical industry, are produced by
centrifugation or
blowing. However, only the production of relatively short tube sections of up to one meter, so-called tube shots, is possible. ==Modifying==