Heraeus Shin-Etsu America, Inc. Patent applications |
Patent application number | Title | Published |
20140352605 | METHOD FOR MAKING BARIUM-DOPED CRUCIBLE AND CRUCIBLE MADE THEREBY - Making a barium-doped silica crucible includes forming a crucible by introducing into a rotating crucible mold bulk silica grains to form a bulky wall. After heating the interior of the mold to fuse the bulk silica grains, an inner silica grain, doped with barium, is introduced into the crucible. Residual heat or additional heat at least partially melts the inner silica grain, allowing the barium-doped silica layer to fuse to the wall of the crucible to form a glossy inner layer. Next, at least a part of the barium-doped silica layer is roughened. Also described are the crucible made thereby as well as silicon ingots made using the crucibles as described herein. | 12-04-2014 |
20130025319 | METAL AND GRAPHITE MOLD AND METHOD OF MAKING A CRUCIBLE - A mold for making a fused silica crucible includes a cylindrical can having an interior bore. A graphite insert is received in the bore and has an upper surface adapted to form the lower surface of the crucible while the interior bore of the can forms the side wall of the crucible. Silica grain is deposited in the mold while it rotates. Bores formed in the can above the insert and in the insert draw air through the silica during fusion. | 01-31-2013 |
20110123738 | METHOD OF MAKING A SILICA CRUCIBLE IN A CONTROLLED ATMOSPHERE - A silica crucible is made in a mold cavity of the type in which ambient atmosphere can be drawn through silica grain in the cavity. In one embodiment, a silica grain layer is formed in the mold cavity and gas, which may comprise helium, nitrogen, hydrogen, or a mixture thereof, is introduced into the mold cavity. The silica grain layer is heated while substantially no ambient atmosphere is drawn through the silica grain. Thereafter, at least a portion of the silica grain layer is fused while drawing ambient atmosphere through the silica grain. The gas displaces air in the mold cavity thereby reducing nitrogen oxides and ozone. | 05-26-2011 |
20110048315 | METHOD AND APPARATUS FOR VENTING GAS BETWEEN A CRUCIBLE AND A SUSCEPTOR - During a CZ or similar process, a silica crucible is held in a graphite or similar susceptor while being heated to above between about 1580 and 1620 degrees C. Vents or grooves formed in at least one of the outer surface of the crucible and the inner surface of the susceptor permit gasses to vent upwardly and out from between the crucible and susceptor. This permits gas evolved from the crucible as a result of the heat to be vented rather than expanding between the crucible and susceptor thereby deforming the crucible. | 03-03-2011 |
20100186662 | CRUCIBLE HAVING A DOPED UPPER WALL PORTION AND METHOD FOR MAKING THE SAME - A fused glass crucible includes a collar of doped aluminum silica that defines uppermost and outermost surfaces of the crucible. The melt line that defines the surface of molten silicon in the crucible may be substantially at the lower end of the collar or slightly above it. Crystallization of the collar makes it hard and therefore supports the remaining uncrystallized portion of the crucible above the melt line. The melt line may also be below the lower end of the collar, especially if the melt is drawn down or poured early in the process. Because there is little or no overlap or because the overlap does not last long, the doped aluminum collar is not damaged by the heat of from the melt. | 07-29-2010 |
20100154701 | SILICA CRUCIBLE WITH PURE AND BUBBLE FREE INNER CRUCIBLE LAYER AND METHOD OF MAKING THE SAME - A method of making a silica crucible in a mold cavity of the type in which air is drawing through silica grain placed in the mold cavity. A pure silica grain layer is formed on top of a natural silica grain layer. At least a portion of the purse silica grain layer is fused while substantially no air is drawn through the silica grain. Any remaining pure silica grain and a least a portion of the natural silica grain layer is fused while drawing a substantially higher volume of air through the silica. At least a portion of the fused pure silica grain layer is then sublimated. | 06-24-2010 |
20090041960 | METHOD FOR MAKING A SILICA GLASS CRUCIBLE - A rotating mold has a plurality of air channels that communicate with a cavity formed in the mold. Silica grain is deposited in the rotating mold and then formed into the shape of a crucible having a lower portion that comprises a substantially uniformly thick wall. An upper portion of the grain is formed into a substantially narrowed wall portion about the perimeter of the formed shape. The silica grain is heated, and a pump draws gas through the air channels while the silica fuses. There is a pressure drop across the narrowed wall portion. After fusing, the upper portion of the crucible, including the narrowed wall portion, is cut off. | 02-12-2009 |