Hingst
Karl Hingst, Augsburg DE
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20100119299 | COMPOSITE FASTENER FOR CERAMIC COMPONENTS - A tubular composite member with two ends for connecting ceramic components made of a composite of an inorganic matrix reinforced with inorganic fibers is formed with an at least partially threaded internal surface and an external surface. A ceramic member has at least one surface formed with one or more annular grooves with an inner shell surface, an outer shell surface, and a root. The inner shell surface is at least partially threaded. A resulting ceramic member assembly includes at least two ceramic members connected by at least one tubular composite member. The ends of the tubular composite member are screwed into the corresponding annular groove of two adjacent ceramic members. The such fastened/joined ceramic members can be operated at high temperatures especially under thermal cycling and/or thermal shock conditions as well as dynamic mechanical load in different directions. Methods to manufacture tubular composite members according to this invention are described. | 05-13-2010 |
20120219778 | COMPOSITE MATERIAL CONTAINING SOFT CARBON FIBER FELT AND HARD CARBON FIBER FELT - A composite contains a binder, at least one layer of a soft carbon fiber felt, and at least one layer of a hard carbon fiber felt. The at least one layer of soft carbon fiber felt is joined via the binder to the at least one layer of hard carbon fiber felt. | 08-30-2012 |
Karl Hingst, Meitingen DE
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20140154437 | COMPONENT MADE OF A FIBER COMPOSITE MATERIAL CONTAINING WOUND LAYERS AND METHOD OF FABRICATING THE COMPONENT - A component made of a fiber composite material contains at least three wound layers made of a fiber material that are arranged one over the other. Each of the wound layers contains one or more windings. For each wound layer containing more than one winding, all windings of the wound layer have the same winding angle and are separated from each other in some sections, whereby intermediate spaces are formed between the windings. All windings of at least two of the wound layers have the same first winding angle. All of the windings of one wound layer, which is arranged between the two wound layers having the windings with a same first winding angle, have a second winding angle. The magnitudes of the first and second winding angles differ, and the windings having the second winding angle intersect with the windings having the first winding angle. | 06-05-2014 |
20140342107 | HEAT SHIELD WITH OUTER FIBER WINDING AND HIGH-TEMPERATURE FURNACE AND GAS CONVERTER HAVING A HEAT SHIELD - A hollow-cylindrical heat shield includes at least one graphite foil and at least one fiber structure, preferably a wound fiber structure, disposed on the outer side of the at least one graphite foil. The (wound) fiber structure has a degree of coverage of less than 100%. A high-temperature furnace or gas converter having a heat shield is also provided. | 11-20-2014 |
Lynn Carl Hingst, Center Point, IA US
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20140197926 | UTILIZATION OF MOTION AND SPATIAL IDENTIFICATION IN RFID SYSTEMS - In one aspect where a load or a subset of one or more tags is in motion relative to an RFID reader system, the RFID system obtains tag readings and derives tag scalar or vector motional data e.g. tag velocity, tag acceleration, and/or rate of change of tag acceleration which can be compared to known tag motional information to distinguish true tags of interest from false positives which are unavoidably also within the field of the reader system. An antenna system may also make readings during distinctive movement patterns of true tags, such as vertical or arcuate movement and utilize computed tag motional data based on the tag readings to distinguish true tags from false positives. Two components of the RFID system may communicate information on identified tags, and/or interact (e.g. by silencing tags), so as to cooperate in identifying true positive tags. | 07-17-2014 |