Search

NASA's technique simplifies the seat installation process by requiring less installation equipment, eliminating the need for unnecessary apparatus such as fasteners and retainers. Multiple seals can be installed simultaneously, saving both time and money. NASA has tested the long-term performance of a solenoid actuated valve with a seat that was fitted using the new installation technique. The valve was fabricated and tested to determine high-cycle and internal leakage performance for an inductive pulsed plasma thruster (IPPT) application for in-space propulsion. The valve demonstrated the capability to throttle the gas flow rate while maintaining low leakage rates of less than 10^-3 standard cubic centimeters per second (sccss) of helium (He) at the beginning of the valves lifetime. The IPPT solenoid actuated valve test successfully reached 1 million cycles with desirable leakage performance, which is beyond traditional solenoid valve applications requirements. Future design iterations can further enhance the valve's life span and performance. The seat seal installation method is most applicable to small valve instruments that have a small orifice of 0.5 inches or less.

To stain a specimen slide, one or more liquid reagents are injected via the dispenser into the slide staining device via a syringe port. The volume of a given reagent is determined by adjustable settings on the dispenser, so that when connected to the staining device, initiates a thin film over the slide. The dispensing device uses only a fraction of the reagents typically used in non-sealed environments. Medical grade polyvinyl alcohol sponges have been incorporated into the dispenser to provide additional fluid containment and retention during the staining procedure. Furthermore, the dispenser can recall excess reagent, minimizing reagent use until refill. The slide staining device is composed of an upper and lower section held together and aligned by use of Nd magnets. With the device open, a specimen slide is positioned upon a silicone gasket that sits within a recess in the lower section. When the device is closed, the silicone gasket in the upper section applies a seal to the slide forming a cavity that allows the slide to be exposed to reagents injected from the connected dispenser creating a stain through the use of capillary forces. Although originally designed for use in microgravity, the slide staining system also works in gravity environments. Numerous applications may exist for this technology, particularly in hematology and cellular biology. Other applications could be considered for academic research, veterinary field use, military, disaster stricken and remote environments or where fine control of fluid delivery, removal, and management is desired. The slide staining system is at technology readiness level (TRL) 8 (actual system completed and "flight qualified" through test and demonstration), and are now available to license. Please note that NASA does not manufacture products itself for commercial sale.