Abstract: This invention provides a glass composition for joining ceramic articles to ceramic or metallic articles, the composition comprising:(i) about 100 parts by weight of at least one of TiN, TiB.sub.2, AlN, AlB.sub.2, BN, B.sub.4 C, SiC and Si.sub.3 N.sub.4 powders,(ii) about 20 to about 1600 parts by weight of SiO.sub.2 powder,(iii) about 1 to about 600 parts by weight of B.sub.2 O.sub.3 powder, and(iv) about 1 to about 1600 parts by weight of at least one of powders of (R.sup.1).sub.2 O wherein R.sup.1 is Na, K or Li, (R.sup.2)O wherein R.sup.2 is Mg, Ca, Ba, Zn, Pb or Cd, (R.sup.3)O.sub.2 wherein R.sup.3 is Ti, Zr or Mn, and (R.sup.4).sub.2 O.sub.3 wherein R.sup.4 is Al or Bi.

Abstract: A process for producing a chalcogenide glass fiber which comprises placing a cylindrical chalcogenide glass preform vertically in a cylindrical crucible furnished with a nozzle in its bottom portion, heating the crucible only at vicinity of the nozzle, and continuously drawing the glass into a fiber with the temperature of the crucible at the vicinity of the nozzle being maintained at such a level that the viscosity of the glass is within the range of 10.sup.3 to 10.sup.7.5 poises.

Abstract: A process for the production of a glass by the vacuum melting method using silica as a raw material is disclosed, comprising filing a silica fine powder in a suitable vessel, heating it in the presence of an accelerator for phase conversion to obtain a porous formed body consisting of a cristobalite phase, and then heating and melting the formed body in vacuo. According to the present invention, a transparent and active glass having a high quality can be produced at an inexpensive cost.

Abstract: Provided is a process for making metal coated non-crystallized, amorphous glass fibers. The process fiberizes a glass containing a metal oxide such as cuprous oxide. The process then heat-treats the fibers to form a semi-conductive layer of copper oxide on the surface. A subsequent reactive reduction step produces a semi-continuous film of metallic copper. This is conductive enough for many radar applications.

Abstract: A vertical standpipe which has an internal fitting. The standpipe conveys a molten glass stream from a molten bath in a furnace forehearth to a spinner below the forehearth. The internal fitting has an orifice positioned so as to maintain a spaced-apart relationship between the interior surface of the standpipe and the molten glass stream issuing from the orifice. The mass flow rate of the molten glass stream is throttled by variable cooling means in the vicinity of the orifice.

Abstract: A valve apparatus for the precise regulation of a stream of molten material such as molten rock or slag as it issues from a primary melter or holding device, comprising a frame retaining a valve, the valve comprising a pair of plate-form valve members, one fixed and one movable with respect to the other, each having an aperture or orifice provided therein. Maximum rate of discharge occurs when the apertures are in juxtaposition, and flow cut-off occurs when the apertures are not in juxtaposition. Power operated means is provided for the movable valve member to obtain proper stream regulation or complete cut-off. Each valve member is formed of a plate of metal having an internal channel through which water is circulated to reduce the temperature of the valve member and to prevent its destruction by overheating.

Abstract: A method and apparatus for periodically discharging batches of a glass melt from a ceramic glass melting furnace in which localized heating energy limitable in time is supplied to the glass melt by means of electrodes in the furnace, the furnace being provided at its bottom with an induction heatable outlet member of ceramic material presenting a vertically oriented outlet passage for discharge of such batches, the furnace being operated to cause the outlet passage to be closed by a plug of the glass when no discharge is to take place, in which such plug is melted for discharging a batch of the glass melt via the outlet passage by preheating the outlet member and the glass plug by induction heating up to a preheating temperature which is below the melting temperature of the glass and above which the rate of increase of the electrical conductivity of the glass plug as a function of increasing temperature is greater than that of the ceramic material of the outlet member, and then further heating the plug, while

Abstract: A sheet of molten glass issuing from an overflow channel is supplied to the molten metal bath used in the formation of float glass. The overflow channel is positioned adjacent one end of such bath transversely of the longitudinal extent thereof, and the overflow channel is fed at one end thereof with homogeneous glass which has been thoroughly stirred and homogenized within a forehearth immediately adjacent the inlet end of such overflow channel, so that the resulting sheet may be attenuated without detrimental surface streak or ridges due to internal striae or cord which detrimentally affect the optical quality of the sheet.

Abstract: The specification discloses a hood for the gathering hole of a glass furnace which minimizes the escape of hot gases through the gathering hole while open for removal of glass from the furnace to reduce air pollution and otherwise improve personnel comfort.