Abstract: A solid propellant acts in a chamber to propel a member such as a rocket, the chamber being closed to the atmosphere. The propellant provides high density-impulses and, when combusted, produces end products which do not have any deleterious effects. The propellant includes a binder/reducing agent having hydrocarbyl linkages including --CH.sub.2 -- and a lead compound oxidizer formed from an inorganic lead oxidizer salt. The oxidizer has dense characteristics and stable properties at ambient temperatures and through a range of temperatures above ambient. A second oxidizer made from a metallic salt (not including lead) such as potassium perchlorate may also be included in the propellant. Carbon, preferably in particulate form, may also be included in the mixture as an additional reducing agent. The different materials are included in the propellant in relative amounts by weight to reduce the lead salt in the oxidizer to lead oxide.
Abstract: A method for producing a melt-blown non-woven mat wherein a fiber-forming thermoplastic polymer resin is extruded in molten form through a row of nozzles into a stream of hot gas which attenuates the molten resin into fibers that form a fiber stream. The fibers are collected on a receiver in the path of the fiber stream to form the non-woven mat. At least two spaced rows of nozzles are provided to produce first and second fiber streams spaced from each other. The spaced fiber streams are collected on the receiver to form a first non-woven mat portion and a second non-woven mat portion and with the first non-woven mat portion overlaying the second non-woven mat portion. At a position intermediate the first and second fiber streams, material different than the fiber-forming resin is injected to have the different material captured between the first and second fiber streams and thereby form a collected structure of the first and second mat portions sandwiching the different material.
Abstract: A system eliminates the adverse effects of serration and equalization pulses (periodically generated during the vertical sync interval) in regulating the frequency of horizontal sync pulses. These sync pulses provide timing information to regulate a video display. The system includes circuitry for stripping and processing the horizontal and vertical sync signals and the serration pulses from the video signals. These pulses are introduced to a first AND gate and through a first display line to an input of a second AND gate. Frequency divider output signals are introduced to the first AND gate and to a third AND gate through a second delay line having an equal delay with the first delay line. The output from the first AND gate passes to second inputs of the second and third AND gates. The second and third AND gates produce signals which represent the time difference between the sync and divider output signals and which have a maximum time difference equal to the delays of the delay lines.
Abstract: A target releases electrons to an anode through a cavity containing gaseous atoms (e.g. argon) having properties of becoming ionized by electron impingement. Magnetic and electrical fields increase the distance of electron travel between the anode and the target, thereby enhancing ion formation from the gaseous atoms. The ions bombard the target and cause it to emit sputtered atoms (e.g. aluminum) which are deposited on a substrate (e.g. wafer) displaced from the target. In one embodiment, a shield disposed between the target and the substrate is shaped, and has a potential, to attract charged particles and prevent them from moving to the substrate. This allows the wafer to be disposed close to the target, thereby enhancing the density, and the thickness uniformity, of the deposition on the substrate. The shield also acts as a getter to remove impurities (e.g. water molecules) from the space between the target and the substrate.
Abstract: A positive energizing voltage, preferably in a CMOS circuit, is converted, primarily by a pair of buffer capacitors and secondarily by a filter capacitor, to a particular negative potential. One buffer capacitor is charged through first switches by the positive voltage during the positive half cycles of a clock signal. The buffer capacitor is discharged to a load during the negative half cycles of the clock signal through a circuit including such buffer capacitor, second switches, a third switch, a reference voltage (e.g. ground) line and a line for providing a negative biasing potential. The other buffer capacitor is charged through fourth switches by the positive voltage during the negative half cycles of the clock signals. This buffer capacitor is discharged to the load during the positive half cycles of the clock signals through a circuit including such other buffer capacitor, fifth switches, the third switch, the reference voltage line and the negative potential line.
Abstract: A support member preferably made of a metal such as cold rolled steel is disposed in a looped configuration and is provided with a gap. A transducer member preferably made of a piezoelectric material such as a ceramic is disposed within the support member. The transducer member is provided with a gap at a position corresponding to the gap in the support member. A closure member made from a suitable springlike material such as an alloy steel is attached to the opposite ends of the support member at the position of the gap as by welding. The closure member extends in a U-shaped configuration into the looped configuration (in section) defined by the support member and the ceramic member. The axial length of the closure member defines the bandwidth of the frequency vibrations generated by the transducer member.
Abstract: A system for detecting the presence of explosives contained in an object under observation, including a cavity structure for receiving the object and a radiation source for producing thermal neutrons directed to the object under observation. Gamma rays are produced to represent the presence of explosives and as an example the concentration of nitrogen contained in the object. Inorganic scintillators are located within the cavity structure to detect the gamma rays and produce an output signal representative of the presence and concentration of the nitrogen and/or other elements contained in the object. The inorganic scintillators are formed as a ring around the cavity structure to detect the nitrogen and/or other elements within at least one particular plane passing through the object. The object under observation is moved through the cavity structure to detect the nitrogen in successive planes to build up a three dimensional profile of explosives concentration.
Type:
Grant
Filed:
December 14, 1990
Date of Patent:
May 19, 1992
Assignee:
Science Applications International Corporation
Abstract: An inline processing system for processing a batch of pallets, including a first magazine for supporting a predetermined number of unprocessed pallets. A load chamber for receiving and supporting the first magazine and for indexing the magazine to present individual ones of the unprocessed pallets to a transport position. One or more process chambers located inline with the load chamber and with each process chamber including a pair of valves at opposite ends of each process chamber to control the passage of individual ones of the pallets between each process chamber and the adjacent chamber. A second magazine for supporting the predetermined number of pallets after processing. An unload chamber for receiving and supporting the second magazine and for indexing the magazine to receive individual ones of the processed pallets from a transport position.
Abstract: Apparatus converts into an analog value signals representing digital values. Sub-sets of switches are provided, the number of switches in each sub-set being directly related to the digital significance of the switches in such sub-set. The switches in each sub-set may be paired to provide for a conductivity of one switch in each pair. The signals representing individual digital values are introduced to the associated sub-sets to provide for the conductivity of an individual one of the switches in each pair in accordance with the digital value represented by such signals. The switches are connected in a recursive relationship defined by repetitions of a basic block. Each basic block is in turn defined by a pair of basic sub-blocks. A plurality of capacitors are also provided as output members. The capacitors are connected to the recursive relationship of the switches to charge the capacitors through paths defined by the conductive ones of the switches.
Abstract: A balanced cascode current mirror includes first and second current paths respectively defined by first and second transistors and by third and fourth transistors. Each current path may include the sources and drains of the transistors in such path. Connections may respectively extend between the gates of the first and third transistors and between the gates of the second and fourth transistors to provide the first and third transistors with substantially identical source, gate, and drain impedances. An input current is introduced to the drain of the second transistor and an output current with substantially identical characteristics is obtained from the drain of the fourth transistor. A capacitance may be connected between the drain of the second transistor and the gate of the first transistor to produce a flow of current at high frequencies through the first current path corresponding to the input current at the drain of the second transistor.