Abstract: Disclosed are composite elastomeric yarns comprising a polymeric core, a thermoplastic polymeric sheath disposed about the core and fibers disposed about and mechanically anchored in the sheath. The melting point temperature of the material comprising the sheath is at least about 10° C. and preferably from about 50° C. to about 75° C. lower than the melting point temperature of the material comprising the core. Methods and articles relating to such yarn are also disclosed.

Abstract: The present invention is a new sensor system with catalyst for control and one with a dummy catalyst. An apparatus and method for rapidly determining the concentration of CO, water vapor, and temperature. One of the major reasons to rapidly determine a small but sudden rise CO is for fire detection. The combination of the CO, followed by rapid relative humidity rise is a clear indication of possible fire or an appliance malfunction, blocked flu or other combustion process gone awry. If the incident is accompanied by ions or particles that would be smoke from a fire. The signal from the CO determined by numerically compensating for humidity changes. Any one or two parameters could cause an increase the sensitivity of the other in a fire detector such as combination CO, relative humidity, temperature and smoke detector. Another application for rapid CO detection is in a vehicle to protect the occupants from a catastrophic CO event.

Abstract: Photon welding devices of this invention comprise a non-coherent photon source, and a light pipe coupled to the photon source at one end. A thin mask is positioned at another end of the light pipe that defines a weld location for photon delivery. A work piece to be bonded by the device comprises a top layer of transparent plastic and a base layer of absorbing plastic. The thin mask is in the form of a reflective coating positioned on the end of the light pipe over all surfaces that are not in contact with the work piece. A device includes a member that imposes a controlled, compressive force to the work piece while it is being welded and during a short time thereafter. The device also includes a member that maintains a desired alignment of the light pipe, top layer of the work piece, and base layer of the work piece during the bonding cycle.

Abstract: The present invention provides an apparatus and method for determining the presence and/or concentration gases using an optical response. These sensors may be very small, fast and low-cost. The preferred embodiment of the invention is accomplished by means of photon monitoring one or more sensors that respond to the target gas. For example by 1) passing the photons through the sensor, 2) multi-passes of a photon beam through the sensor, 3) by evanescent field absorption (EFA) and 4) by using index of refraction changes to switch the photon from one path to another. Rapid detection of gases such as CO can be made by multiple passes of photons through a sensor that is absorbing photons of that wavelength range. The photon beam is passed back and forth through the sensor by some means such as using highly reflective optical surfaces or cavity. In essences the multiple internal reflections in a waveguide are similar to the multi-pass photon method except chat the evanescent method only penetrates about 200 nm.

Abstract: A device for welding together optical fiber, constructed and put into practice, according to the principles of this invention, comprises a photon source capable of transmitting photons to at a desired waveband to a desired target, e.g., a solid state part, a fiber optic cable, or a optical waveguide. The desired target, e.g., the end of an optical fiber, comprises a photon absorber material that is designed to absorb the photons emitted by the photon source. Through exposure of the photons emitted from the photon source, the absorber is caused to melt within a very short period of time for a defined period of time, during which time the desired target parts are joined and welded together. Ideally, the photon absorber material is matched to absorb photons in the same waveband as that emitted by the photon source. The device is configured to efficiently produce, focus, and deliver photons to the target area for welding.

Abstract: CO exposure is a serious public health problem in the U.S., causing both morbidity and mortality (lifetime mortality risk approximately 10−4). Sparse data from population-based CO exposure assessments indicate that approximately 10% of the U.S. population is exposed to CO above the National Ambient Air Quality Standard. No CO exposure measurement technology is available for affordable population-based CO exposure assessment studies. Two CO measuring devices, an occupational CO dosimeter (LOCD) and an indoor air quality (IAQ) passive sampler, were designed, developed, and tested both in the laboratories and field. Time-weighted-average CO exposure of the compact diffusion tube sampler containing a selective and non-regenerative palladium-molybdenum based CO sensor is quantified by using a simple spectrophotometer. Both devices are capable of measuring CO exposure precisely with relative standard deviation of less than 20% and with bias of less than 10%.

Abstract: Sensor and sensor assemblies generally comprises a sensor body having a chamber disposed therein for accommodating a sensor reagent or material. The chamber is defined within the body between optically transparent body portions. The chamber is in gas flow communication with a passage used for passing a collected breath to the sensor material. A liquid or solid sensor material is disposed within the chamber and is designed to change in optical properties upon exposure to a target gas within the collected breath sample by reaction therewith. A gas permeable membrane can be disposed over the chamber opening to retain the sensor material, in the event it is liquid, and to permit the diffusion of gas from the collected breath sample to the sensor material. The sensor assembly is used with a photon source that emits photons, within a selected wavelength band, onto the chamber and sensor material, and a photon collector that is used to receive photons that exit the chamber.

Abstract: The present invention provides an apparatus and method for determining the concentration of CO gas in a fuel reformate stream such as in a PEM fuel cell vehicle. This invention protects the fuel cell catalyst by controlling the reformate stream system to minimize the CO and reduce it by a novel catalyst system that selectively converts CO to methane but does not react with carbon dioxide and hydrogen. The catalyst may reduce the CO to methane by reaction with hydrogen. The preferred embodiment both monitors the CO by a thermal differential sensing means and an optical biomimetic sensor and or a conductivity sensor. These sensors respond to the CO gas and are monitored by one or more monitoring sensors such as the temperature and or conductivity difference between the control and the catalytic material such as nickel and in the biomimetic sensor an optical change is monitored.

Abstract: Nanofibers are produced having a diameter ranging from about 4 Å to 1 nm, and a nano denier of about 10−9. The use of the electro-spinning process permits production of the desired nanofibrils. These fibrils in combination with a carrier or strengthening fibers/filaments can be converted directly into nonwoven fibrous assemblies or converted into linear assemblies(yarns) before weaving, braiding or knitting into 2-dimensional and 3-dimensional fabrics. The electrospun fiber can be fed in an air vortex spinning apparatus developed to form a linear fibrous assembly. The process makes use of an air stream in a properly confined cavity. The vortex of air provides a gentle means to convert a mixture of the fibril fed directly or indirectly from the ESP unit and a fiber mass or filament into an integral assembly with proper level of orientation. Incorporation of thus produced woven products into tissue engineering is part of the present invention.

Abstract: The present invention provides a means and a device to control relative humidity and airborne contaminants within a defined environment. The devices and methods of the present invention enable a user to regulate the relative humidity of a defined environment and insure that extreme conditions, e.g. less than 15% or greater than 90% relative humidity, do not exist. The air quality control system can also be used to control the relative humidity in and about a narrow range. Control over relative humidity and airborne contaminants is achieved by combining an appropriate salt and water solution, such as a saturated salt solution with a solid phase of that salt, with an isolation membrane and a getter system. The present invention is particularly useful for housing sensors, such as SIR sensors, which are sensitive to relative humidity extremes.

Abstract: A combustion device comprises a porous distributive layer, a combustion chamber disposed downstream of the porous distributive layer, and an emissive matrix in an active flame zone in the combustion chamber of the device downstream from the porous distributive layer. The emissive matrix comprises a three dimensional matrix structure made of heat absorbing, heat radiating, and heat conducting bodies. The device includes a blower for delivering a fuel/oxidizer mixture at sufficiently elevated pressure to an upstream face of the porous distributive layer to distribute the active flame zone substantially throughout the emissive matrix.

Abstract: The present invention provides an apparatus and method for determining the concentration and/or hazard from a target gas by means of optically monitoring one or more sensors that responds to the target gas by means of an optical change. The apparatus comprises a photon source optically coupled to the sensor and the photon intensity passing through the sensor is quantified by more than one photodiode in a system, so that the photon flux is a function of at least one sensor's response to the target gas, e.g., transmits light through the sensor to the photodiode. The photocurrent from the photodiode is converted to a digital sensor reading value proportional to the optical characteristics of the sensors and is loaded into a microprocessor or other logic circuit. In the microprocessor, the sensor readings are essentially differentiated to determine the rate of change of the sensor readings.

Abstract: A superemissive combustion device of this invention comprises a porous distributive layer and an apparatus for delivering a fuel/oxidizer mixture to an upstream face of the porous distributive layer. A superemissive advanced emissive matrix in is disposed within an active flame zone downstream from the porous distributive layer. The emissive matrix is in the form of a three dimensional matrix of radiating bodies that is optically thin to electromagnetic radiation. The emissive matrix is either formed from or includes a coating of a superemissive material that is selected to emit photons within a predetermined wavelength range when thermally stimulated. The emitted photons are received by one or more photovoltaic cells disposed adjacent the matrix.