Abstract: A granular cohered MOP fertilizer having one or more micronutrients, and one or more binding ingredients. The fertilizer is prepared by compacting MOP feed material with a source of zinc and one or more optional binders to form a cohered MOP composition. The cohered MOP composition is then further processed, such as by crushing and sizing, to form a cohered granular MOP product containing a source of zinc. The process yields a fertilizer product containing micronutrients with superior elemental and granule size distribution without compromising handling or storage qualities.

Abstract: A granular cohered MOP fertilizer having one or more micronutrients, and one or more binding ingredients. The fertilizer is prepared by compacting MOP feed material with a source of zinc and one or more optional binders to form a cohered MOP composition. The cohered MOP composition is then further processed, such as by crushing and sizing, to form a cohered granular MOP product containing a source of zinc. The process yields a fertilizer product containing micronutrients with superior elemental and granule size distribution without compromising handling or storage qualities.

Abstract: A granular cohered MOP fertilizer having one or more micronutrients, and one or more binding ingredients. The fertilizer is prepared by compacting MOP feed material with a source of zinc and one or more optional binders to form a cohered MOP composition. The cohered MOP composition is then further processed, such as by crushing and sizing, to form a cohered granular MOP product containing a source of zinc. The process yields a fertilizer product containing micronutrients with superior elemental and granule size distribution without compromising handling or storage qualities.

Abstract: A granular cohered MOP fertilizer having one or more micronutrients, and one or more binding ingredients. The fertilizer is prepared by compacting MOP feed material with one or more micronutrients and one or more optional binders to form a cohered MOP composition. The cohered MOP composition is then further processed, such as by crushing and sizing, to form a cohered granular MOP product containing micronutrients. The process yields a fertilizer product containing micronutrients with superior elemental and granule size distribution without comprising handling or storage qualities.

Abstract: A granular cohered MOP fertilizer having one or more micronutrients, and one or more binding ingredients. The fertilizer is prepared by compacting MOP feed material with one or more micronutrients and one or more optional binders to form a cohered MOP composition. The cohered MOP composition is then further processed, such as by crushing and sizing, to form a cohered granular MOP product containing micronutrients. The process yields a fertilizer product containing micronutrients with superior elemental and granule size distribution without comprising handling or storage qualities.

Abstract: A granular cohered MOP fertilizer having one or more micronutrients, and one or more binding ingredients. The fertilizer is prepared by compacting MOP feed material with one or more micronutrients and one or more optional binders to form a cohered MOP composition. The cohered MOP composition is then further processed, such as by crushing and sizing, to form a cohered granular MOP product containing micronutrients. The process yields a fertilizer product containing micronutrients with superior elemental and granule size distribution without comprising handling or storage qualities.

Abstract: A servovalve has a sleeve having both a first metering aperture and a second metering aperture in fluid communication with a single port cavity defined by the servovalve. A spool oriented within the sleeve has a first land and a second land and defines a channel oriented between the first land and the second land. When the spool orients in a null position within the sleeve, the first land overlaps the first metering aperture and the second land overlaps the second metering aperture. As a low viscosity fluid within the servovalve assembly leaks across the first land and enters the channel, the overlap of the first and second lands with the first and second metering apertures minimizes flow of the fluid from the channel into the port cavity associated with the metering apertures. The configuration of the sleeve assembly, therefore, maintains a relatively large pressure gain within the servovalve assembly.

Abstract: An apparatus to accurately hold an optical fiber within a commercial fiber optic connector. The connector has a first high precision slice having multiple holes of a first area and a first alignment opening and a second high precision slice having multiple holes of a second area and a second alignment opening. The holes of the first high precision slice are arranged relative to the first alignment opening so that, when the second high precision slice and the first high precision slice are juxtaposed with one another and the first alignment opening and the second alignment opening are aligned, the holes of the first high precision slice and the holes of the second high precision slice will be offset relative to each other and will define an opening having an area less than a smaller of the first area and second area. The opening is capable of closely constraining an optical fiber inserted therethrough.

Abstract: A servovalve has a sleeve having both a first metering aperture and a second metering aperture in fluid communication with a single port cavity defined by the servovalve. A spool oriented within the sleeve has a first land and a second land and defines a channel oriented between the first land and the second land. When the spool orients in a null position within the sleeve, the first land overlaps the first metering aperture and the second land overlaps the second metering aperture. As a low viscosity fluid within the servovalve assembly leaks across the first land and enters the channel, the overlap of the first and second lands with the first and second metering apertures minimizes flow of the fluid from the channel into the port cavity associated with the metering apertures. The configuration of the sleeve assembly, therefore, maintains a relatively large pressure gain within the servovalve assembly.

Abstract: A method of making A fiber optic connector adapted to receive a fiber bearing unit involves coupling at least one high precision piece, having holes configured to accept an array of optical fibers, to a low precision piece to form a unit, inserting optical fibers into the unit and housing the unit within a fiber optic connector housing. A commercial fiber optic connector of a style constructed to accept a ferrule-like unit therein has a connector housing, at least 36 optical fibers, a low precision piece, and at least one high precision slice having at least 36 fiber holes each adapted to accept one of the optical fibers, the low precision piece and the at least one high precision slice being contained substantially within the connector housing and forming the ferrule like unit.

Abstract: An apparatus for use in a commercial fiber optic connector is made up of an assembly of a set of slices. Each of the slices having multiple through holes of a specified arrangement. At least some of the through holes on any two adjoining slices are aligned with respect to each other so as to define a conduit between them. A transmission medium is within the holes. A method of making a fiber optic connector adapted to receive a fiber bearing unit is also described. The method involves coupling at least two high precision pieces together, the at least two high precision pieces having holes configured with an optical medium inserted therein after the coupling and cured to form a waveguide structure, coupling the at least two high precision pieces to a low precision piece to form a unit, and housing the unit within a fiber optic connector housing.

Abstract: An apparatus for use in a commercial fiber optic connector is made up of an assembly of a set of slices. Each of the slices having multiple through holes of a specified arrangement. At least some of the through holes on any two adjoining slices are aligned with respect to each other so as to define a conduit between them. A transmission medium is within the holes. A method of making a fiber optic connector adapted to receive a fiber bearing unit is also described. The method involves coupling at least two high precision pieces together, the at least two high precision pieces having holes configured with an optical medium inserted therein after the coupling and cured to form a waveguide structure, coupling the at least two high precision pieces to a low precision piece to form a unit, and housing the unit within a fiber optic connector housing.

Abstract: An apparatus to accurately hold an optical fiber within a commercial fiber optic connector. The connector has a first high precision slice having multiple holes of a first area and a first alignment opening and a second high precision slice having multiple holes of a second area and a second alignment opening. The holes of the first high precision slice are arranged relative to the first alignment opening so that, when the second high precision slice and the first high precision slice are juxtaposed with one another and the first alignment opening and the second alignment opening are aligned, the holes of the first high precision slice and the holes of the second high precision slice will be offset relative to each other and will define an opening having an area less than a smaller of the first area and second area. The opening is capable of closely constraining an optical fiber inserted therethrough.

Abstract: A method of making a fiber optic connector adapted to receive a fiber bearing unit involves coupling at least one high precision piece, having holes configured to accept an array of optical fibers, to a low precision piece to form a unit, inserting optical fibers into the unit and housing the unit within a fiber optic connector housing. A commercial fiber optic connector of a style constructed to accept a ferrule-like unit therein has a connector housing, at least 36 optical fibers, a low precision piece, and at least one high precision slice having at least 36 fiber holes each adapted to accept one of the optical fibers, the low precision piece and the at least one high precision slice being contained substantially within the connector housing and forming the ferrule like unit.

Abstract: A commercial fiber optic connector of a style constructed to accept a ferrule-like unit therein has optical fibers, each having a first part and a second part separated by lengths, a low precision piece having a peripheral shape of a part of the ferrule like unit, two high precision slices each having fiber holes therein. A chamber separates the two high precision pieces defining a volume therebetween. The optical fibers have their first parts within the fiber holes in one of the high precision slices, their second parts within the fiber holes in the other of the high precision slices, and at least some of their length within the volume. The low precision piece and the two high precision slices collectively form the ferrule like unit and the ferrule like unit is contained substantially within the connector housing.

Abstract: An adjustable tethering device for various objects, including horses and other animals, includes a tie arm attachment structure, an elongated tie arm, a brace and a support structure which includes a bearing surface. The tie arm has one end pivotally attached to the tie arm attachment structure. The other end of the tie arm has an attachment point to which a lead of the object being restrained, such as a horse, may be attached. One end of the brace is pivotally attached to the tie arm between the tie arm attachment structure and the attachment point. The opposite end of the brace is supported by the bearing surface of the support structure when the tie arm is in an elevated position. In one embodiment, the tie arm attachment structure and the support structure comprise a single C channel. When used on a structure such as a trailer the adjustable tethering device may be adjusted between a travel position and one or more elevated positions.

Abstract: A method of making a fiber optic connector adapted to receive a fiber bearing unit involves coupling at least one high precision piece, having holes configured to accept an array of optical fibers, to a low precision piece to form a unit, inserting optical fibers into the unit and housing the unit within a fiber optic connector housing. A commercial fiber optic connector of a style constructed to accept a ferrule-like unit therein has a connector housing, at least 36 optical fibers, a low precision piece, and at least one high precision slice having at least 36 fiber holes each adapted to accept one of the optical fibers, the low precision piece and the at least one high precision slice being contained substantially within the connector housing and forming the ferrule like unit.

Abstract: An apparatus to accurately hold an optical fiber within a commercial fiber optic connector. The connector has a first high precision slice having multiple holes of a first area and a first alignment opening and a second high precision slice having multiple holes of a second area and a second alignment opening. The holes of the first high precision slice are arranged relative to the first alignment opening so that, when the second high precision slice and the first high precision slice are juxtaposed with one another and the first alignment opening and the second alignment opening are aligned, the holes of the first high precision slice and the holes of the second high precision slice will be offset relative to each other and will define an opening having an area less than a smaller of the first area and second area. The opening is capable of closely constraining an optical fiber inserted therethrough.

Abstract: A commercial fiber optic connector of a style constructed to accept a ferrule-like unit therein has optical fibers, each having a first part and a second part separated by lengths, a low precision piece having a peripheral shape of a part of the ferrule like unit, two high precision slices each having fiber holes therein. A chamber separates the two high precision pieces defining a volume therebetween. The optical fibers have their first parts within the fiber holes in one of the high precision slices, their second parts within the fiber holes in the other of the high precision slices, and at least some of their length within the volume. The low precision piece and the two high precision slices collectively form the ferrule like unit and the ferrule like unit is contained substantially within the connector housing.

Abstract: An apparatus for use in a commercial fiber optic connector is made up of an assembly of a set of slices. Each of the slices having multiple through holes of a specified arrangement. At least some of the through holes on any two adjoining slices are aligned with respect to each other so as to define a conduit between them. A transmission medium is within the holes. A method of making a fiber optic connector adapted to receive a fiber bearing unit is also described. The method involves coupling at least two high precision pieces together, the at least two high precision pieces having holes configured with an optical medium inserted therein after the coupling and cured to form a waveguide structure, coupling the at least two high precision pieces to a low precision piece to form a unit, and housing the unit within a fiber optic connector housing.