Abstract: An apparatus for providing auxiliary signals on a high speed electrical signal network is provided such that the auxiliary signals may be used for independent monitoring or communication of monitored information without affecting data or bit error rates for the primary high speed data signals. The auxiliary signals may be used as part of a built-in testing of a network, including electrical time-domain reflectometry measurements to determine fault locations in a network.
Abstract: A process for treating an alpha-beta titanium alloy to improve cryogenic notch tensile ratio comprises heating the alloy to near or above its beta transus temperature for a sufficient time to dissolve substantially all alpha grains and thus transform the alloy to the beta form, rapidly cooling the alloy from this temperature to induce a martensitic transformation and produce a fine platelet microstructure, isothermally forging the alloy about 50 to 80 percent at about 300° C. below the beta transus temperature to attain a fine equiaxed microstructure such that the largest microstructural unit is about 2-5 &mgr;m, and then aging the alloy at a temperature about 25° C. to 75° C. below the beta transus to grow the refined equiaxed microstructure such that the largest microstructural unit is about 5-10 &mgr;m.
Abstract: A method of making a panel for installation in the high velocity air flow region of an engine nacelle and other applications requiring sound absorbing material and increased air frame strength. The panel utilizes a single layer of either a metallic or nonmetallic cellular core with a solid or perforated septum disposed internally therein. The septum may have a planar or nonplanar configuration within the individual cells of the core thereby providing means for reducing the noise level of various sound frequencies created by a jet engine or any other sound producing devices for that matter. The planar or nonplanar septum provides structural stabilization and/or vibration dampening to a bonded sandwich assembly. The panel may also be used in strengthening air frame construction and other applications besides sound attenuating panels.
Type:
Grant
Filed:
September 11, 1978
Date of Patent:
March 24, 1981
Assignee:
The Boenig Company
Inventors:
James L. Diepenbrock, Jr., M. Dean Nelsen, Marlyn F. Harp