Abstract: This invention discloses a new class of pH indicators suitable for use in agricultural compounds. The class comprises naturally occurring substances which are extracts from grape skins, cabbage and lecithin. Safety concerns are now causing regulatory bodies to prohibit use of chemical pH indicators in compounds which are used for crops and animals. The naturally occurring compounds of this invention satisfy these concerns of the regulators and function as well as chemical indicators of the prior art.

Abstract: Multi-part filaments for additive manufacturing comprise an elongate filament body. The elongate filament body comprises a first body part extending longitudinally along the elongate filament body, and a second body part extending longitudinally along the elongate filament body. The first body part comprises a first material, and the second body part comprises a second material. One of the first body part and the second body part is more rigid than the other of the first body part and the second body part and is sufficiently rigid to print self-supporting structures from the multi-part filament.

Abstract: Examples in the disclosure relate to an apparatus for checking whether a flange in a creased sheet of metal conforms to specified dimensions. The tool may include a handle and a first block extending from the handle. The first block may include a slot extending from a distal surface of the block to an interior end, the slot having an interior wall and an opposite exterior wall. The first block may include a shoulder located near the distal surface of the block extending from the interior wall toward the exterior wall and defining a length between the shoulder and the interior end along the interior wall. The length may correspond to a specified length of the flange. The first block may include a beveled edge on the exterior wall corresponding to a specified distance between a surface of the sheet and the flange.

Abstract: A feedstock line comprises elongate filaments, a resin, and a full-length optical waveguide, comprising a full-length optical core. The full-length optical waveguide is configured such that when electromagnetic radiation enters the full-length optical core via at least one of a first full-length-optical-core end face, a second full-length-optical-core end face, or a full-length peripheral surface that extends between the first full-length-optical-core end face and the second full-length-optical-core end face, at least a portion of the electromagnetic radiation exits the full-length optical core via the full-length peripheral surface to irradiate, in an interior volume of the feedstock line, the resin that, due at least in part to the elongate filaments, is not directly accessible to the electromagnetic radiation, incident on the exterior surface of the feedstock line.

Abstract: Systems and methods for additively manufacturing composite parts are disclosed. Methods comprise combining a plurality of pre-consolidated tows to define a macro tow and dispensing the macro tow in three dimensions to define the composite part. Each pre-consolidated tow comprises a fiber tow within a non-liquid binding matrix. The combining comprises actively altering a shape and/or size of a cross-sectional profile of the macro tow along a length of the macro tow as it is being defined.

Abstract: A system for creating a feedstock line for additive manufacturing of an object comprises a prepreg-tow supply, a prepreg-tow separator, an optical-direction-modifier supply, a combiner, and at least one heater. The prepreg-tow supply dispenses a precursor prepreg tow, comprising elongate filaments and resin. The prepreg-tow separator separates the precursor prepreg tow into individual elongate filaments at least partially covered with the resin. The optical-direction-modifier supply dispenses optical direction modifiers to the elongate filaments. When electromagnetic radiation strikes the outer surface of the optical direction modifiers, at least a portion of the electromagnetic radiation departs the outer surface at an angle. The combiner combines the elongate filaments and the optical direction modifiers into a derivative prepreg tow. At least the one heater heats the resin to cause wet-out of the optical direction modifiers and the elongate filaments in the derivative prepreg tow by the resin.

Abstract: Systems and methods for additively manufacturing composite parts are disclosed. Systems comprise at least a feedstock source and a feed mechanism. The feedstock source comprises a plurality of pre-consolidated tows, with each pre-consolidated tow comprising a fiber tow within a non-liquid binding matrix. In some systems, a tow combiner receives at least a subset of the plurality of pre-consolidated tows from the feedstock source and combines the subset of the plurality of pre-consolidated tows to define a macro tow. The feed mechanism moves the subset of the plurality of pre-consolidated tows from the feedstock source and into the tow combiner and moves the macro tow from the tow combiner. Methods according to the present disclosure comprise combining a plurality of pre-consolidated tows to define a macro tow, and dispensing the macro tow in three dimensions to define a composite part.

Abstract: Examples in the disclosure relate to an apparatus for checking whether a flange in a creased sheet of metal conforms to specified dimensions. The tool may include a handle and a first block extending from the handle. The first block may include a slot extending from a distal surface of the block to an interior end, the slot having an interior wall and an opposite exterior wall. The first block may include a shoulder located near the distal surface of the block extending from the interior wall toward the exterior wall and defining a length between the shoulder and the interior end along the interior wall. The length may correspond to a specified length of the flange. The first block may include a beveled edge on the exterior wall corresponding to a specified distance between a surface of the sheet and the flange.

Abstract: A method relating to pricing under a contractual service agreement between a customer and a service provider, where the service provider provides maintenance services on a generating unit for a fee. An output of the generating unit is produced by a generator to which the generating unit is operably connected. The method comprising: determining a usage period for the generating unit; monitoring the output of the generating unit during the usage period and, therefrom, designating an output level for the generating unit for the usage period; calculating the fee for the usage period pursuant to a variable pricing plan, the variable pricing plan comprising a price for calculating the fee that varies depending on the designated output level of generating unit for the usage period; and billing the calculated fee to the customer.

Abstract: A system, apparatus, and method for network traffic management. The method includes receiving a message to be broadcast over a network, assigning a predefined delay time to the transmission the message, and transmitting the message over the network after passage of the predefined delay time.

Abstract: Additive manufacturing fiber composites comprise a bundle of elongate fibers and a matrix material that holds or encompasses the elongate fibers of the additive manufacturing fiber tow. The matrix material includes an energy-emissive dopant that emits a curing energy in response to receiving an activating energy. The curing energy effects curing of the solidifiable matrix material so that it solidifies to a rigid or semi-rigid matrix material. Methods of additively manufacturing an article include dispensing an additive manufacturing fiber tow, a solidifiable matrix material, and an energy-emissive dopant to form a solidifiable composite, and applying the activating energy to the energy-emissive dopant to activate the energy-emissive dopant to emit the curing energy. Systems to additively manufacturing an article may be configured to employ such additive manufacturing fiber composites and/or methods.

Abstract: A system (700) for additively manufacturing an object (136) comprises feedstock-line supply (702), delivery guide (704), and curing mechanism (706). The feedstock-line supply (702) dispenses a feedstock line (100) that comprises elongate fibers (104), a resin (124) that covers the elongate fibers (104), and at least one optical modifier (123) that is interspersed among the elongate filaments (104). The delivery guide (704) is movable relative to a surface (708), receives the feedstock line (100), and deposits it along a print path (705). The curing mechanism (706) is directs electromagnetic radiation (118) at the exterior surface (180) of the feedstock line (100) after it is deposited along the print path (705).

Abstract: A feedstock line (100) comprises elongate filaments (104), a resin (124), and a full-length optical waveguide (102), comprising a full-length optical core (110). The full-length optical waveguide (102) is configured such that when electromagnetic radiation (118) enters the full-length optical core (110) via at least one of a first full-length-optical-core end face (112), a second full-length-optical-core end face (114), or a full-length peripheral surface (116) that extends between the first full-length-optical-core end face (112) and the second full-length-optical-core end face (114), at least a portion of the electromagnetic radiation (118) exits the full-length optical core (110) via the full-length peripheral surface (116) to irradiate, in an interior volume (182) of the feedstock line (100), the resin (124) that, due at least in part to the elongate filaments (104), is not directly accessible to the electromagnetic radiation (118), incident on the exterior surface (180) of the feedstock line (100).

Abstract: A feedstock line (100) comprises elongate filaments (104), a resin (124), and a full-length optical waveguide (102), comprising a full-length optical core (110). The full-length optical waveguide (102) is configured such that when electromagnetic radiation (118) enters the full-length optical core (110) via at least one of a first full-length-optical-core end face (112), a second full-length-optical-core end face (114), or a full-length peripheral surface (116) that extends between the first full-length-optical-core end face (112) and the second full-length-optical-core end face (114), at least a portion of the electromagnetic radiation (118) exits the full-length optical core (110) via the full-length peripheral surface (116) to irradiate, in an interior volume (182) of the feedstock line (100), the resin (124) that, due at least in part to the elongate filaments (104), is not directly accessible to the electromagnetic radiation (118), incident on the exterior surface (180) of the feedstock line (100).

Abstract: A feedstock line (100) comprises elongate filaments (104), a resin (124), and optical direction modifiers (123). The resin (124) covers the elongate filaments (104). The optical direction modifiers (123) are covered by the resin (124) and are interspersed among the elongate filaments (104). Each of the optical direction modifiers (123) has an outer surface (184). Each of the optical direction modifiers (123) is configured such that when electromagnetic radiation (118) strikes the outer surface (184) from a first direction, at least a portion of the electromagnetic radiation (118) departs the outer surface (184) in a second direction that is at an angle to the first direction to irradiate, in the interior volume of the feedstock line (100), the resin (124) that, due at least in part to the elongate filaments (104), is not directly accessible to the electromagnetic radiation (118), incident on the exterior surface of the feedstock line.

Abstract: A feedstock line (100) comprises elongate filaments (104), a resin (124), and a full-length optical waveguide (102), comprising a full-length optical core (110). The full-length optical waveguide (102) is configured such that when electromagnetic radiation (118) enters the full-length optical core (110) via at least one of a first full-length-optical-core end face (112), a second full-length-optical-core end face (114), or a full-length peripheral surface (116) that extends between the first full-length-optical-core end face (112) and the second full-length-optical-core end face (114), at least a portion of the electromagnetic radiation (118) exits the full-length optical core (110) via the full-length peripheral surface (116) to irradiate, in an interior volume (182) of the feedstock line (100), the resin (124) that, due at least in part to the elongate filaments (104), is not directly accessible to the electromagnetic radiation (118), incident on the exterior surface (180) of the feedstock line (100).

Abstract: This invention discloses a new class of pH indicators suitable for use in agricultural compounds. The class comprises naturally occurring substances which are extracts from grape skins, cabbage and lecithin. Safety concerns are now causing regulatory bodies to prohibit use of chemical pH indicators in compounds which are used for crops and animals. The naturally occurring compounds of this invention satisfy these concerns of the regulators and function as well as chemical indicators of the prior art.

Abstract: Additive manufacturing fiber tows comprise a bundle of elongate fibers. Bindments, which may include particles, elongated bindment segments, coating segments, and/or encircling bindments are interposed among the plural elongate fibers to provide interstitial regions among the plural elongate fibers and the bindments. Methods of additively manufacturing an article with a configuration comprise dispensing the additive manufacturing fiber tow with bindments in multiple successive courses in the configuration to additively manufacture the article. The methods may include fixing the bindments together to hold the article in the configuration with the interstitial regions among the plural elongate fibers and the bindments. A solidifiable matrix material may be applied to the article, including to the interstitial regions, and the solidifiable matrix material may be solidified to form a finished article.

Abstract: A method of surgical dissection of tissue with a dissector comprising: an elongate shaft comprising a proximal portion and a distal portion, wherein the distal portion comprises a plurality of segments that articulate with respect to one another and the plurality of segments includes a distal segment having a distal end; and a handle attached to the proximal portion of the shaft, wherein the handle comprises controls for articulating the plurality of segments of the distal portion of the shaft with respect to one another, comprising the steps of: positioning the distal end of the dissector in a body; advancing the distal end through the body to dissect tissue; and simultaneously articulating the plurality of segments with respect to one another. A method of surgical dissection of tissue and guiding a second device to a desired physiological location with a first device.

Abstract: A feedstock line comprises elongate filaments, a resin, and optical direction modifiers. The resin covers the elongate filaments. The optical direction modifiers are covered by the resin and are interspersed among the elongate filaments. Each of the optical direction modifiers has an outer surface. Each of the optical direction modifiers is configured such that when electromagnetic radiation strikes the outer surface from a first direction, at least a portion of the electromagnetic radiation departs the outer surface in a second direction that is at an angle to the first direction to irradiate, in the interior volume of the feedstock line, the resin that, due at least in part to the elongate filaments, is not directly accessible to the electromagnetic radiation, incident on the exterior surface of the feedstock line.