Abstract: An apparatus and method for producing gelled pearls includes: a housing with at least one opening into which a flavored liquid is provided; external components; and internal components. The external components include: a first ingress port through which a first refill pack is coupled; and a dispenser with tubing through which a processed solution is expelled into a gelling bath. The internal components include: a mixing tank for blending the flavored liquid with the first solution; a first flow valve fluidly coupled with the mixing tank and directing the flavored liquid into and out of the mixing tank; a second flow valve fluidly coupled with the mixing tank and directing flow of a proportional amount of the first solution into the mixing tank; and a microcontroller device.

Abstract: This disclosure provides electron beam irradiated products and methods thereof. In particular, the invention is directed to a products and methods that comprise an electron beam irradiated component and a second component. The electron beam irradiated component may be plastic. The second component may be a building material or construction material. The invention is also directed to methods of manufacturing a modified polymer material with an electron-beam. Methods comprise irradiating the polymer particles of the material by dosing with electron beam radiation to produce a modified polymer material comprising irradiated polymer particles.

Abstract: Devices, systems, and methods of the present disclosure are generally directed to building material including particles of a polymer in an irradiated form, a cement including calcium oxide, and at least one additive including silicon dioxide. In cement paste formed from a mixture of these components, the polymer in the irradiated form may decrease porosity as compared to porosity of cement paste formed without the polymer, and a combination of the silicon dioxide and the calcium oxide may form high-density phases in the cement paste. With these characteristics, such cement paste may exhibit at least the same compressive strength as cement paste formed from the cement by itself. Thus, in certain instances, the particles of the polymer may displace a portion of the cement in a manner that maintains compressive strength while facilitating reduction of greenhouse gas emissions associated with cement paste formation.

Abstract: An apparatus and method for producing gelled pearls includes: a housing with at least one opening into which a flavored liquid is provided; external components; and internal components. The external components include: a first ingress port through which a first refill pack is coupled; and a dispenser with tubing through which a processed solution is expelled into a gelling bath. The internal components include: a mixing tank for blending the flavored liquid with the first solution; a first flow valve fluidly coupled with the mixing tank and directing the flavored liquid into and out of the mixing tank; a second flow valve fluidly coupled with the mixing tank and directing flow of a proportional amount of the first solution into the mixing tank; and a microcontroller device.

Abstract: Devices, systems, and methods of the present disclosure are generally directed to building material including particles of a polymer in an irradiated form, a cement including calcium oxide, and at least one additive including silicon dioxide. In cement paste formed from a mixture of these components, the polymer in the irradiated form may decrease porosity as compared to porosity of cement paste formed without the polymer, and a combination of the silicon dioxide and the calcium oxide may form high-density phases in the cement paste. With these characteristics, such cement paste may exhibit at least the same compressive strength as cement paste formed from the cement by itself. Thus, in certain instances, the particles of the polymer may displace a portion of the cement in a manner that maintains compressive strength while facilitating reduction of greenhouse gas emissions associated with cement paste formation.

Abstract: An implantable dosimeter uses salt crystals such as NaCl or KCl, or other materials that vary in color as a function of incident, ionizing radiation. The color change of the salts may occur through the creation of F-centers, where electrons become trapped in crystal defects (e.g., halide vacancies) and absorb light at certain wavelengths. Vacancies in the salt crystals absorb photons at precise wavelengths. Thus, the change in color can be correlated to the integrated dose in an implantation site. The salt crystals may be optically coupled to optical fibers or the like for remote measurement of color using, e.g., a spectrometer and a computer system. In this manner, the dosage of ionizing radiation can be measured in vivo with a fault tolerant, passively integrating dosimeter.

Abstract: An apparatus for producing gelled pearls includes: a housing with at least one opening into which a flavored liquid is provided; external components; and internal components. The external components include: a first ingress port through which a first refill pack is coupled; and a dispenser with tubing through which a processed solution is expelled into a gelling bath. The internal components include: a mixing tank for blending the flavored liquid with the first solution; a first flow valve fluidly coupled with the mixing tank and directing the flavored liquid into and out of the mixing tank; a second flow valve fluidly coupled with the mixing tank and directing flow of a proportional amount of the first solution into the mixing tank; and a microcontroller device.

Abstract: An apparatus for producing gelled pearls includes: a housing with at least one opening into which a flavored liquid is provided; external components; and internal components. The external components include: a first ingress port through which a first refill pack is coupled; and a dispenser with tubing through which a processed solution is expelled into a gelling bath. The internal components include: a mixing tank for blending the flavored liquid with the first solution; a first flow valve fluidly coupled with the mixing tank and directing the flavored liquid into and out of the mixing tank; a second flow valve fluidly coupled with the mixing tank and directing flow of a proportional amount of the first solution into the mixing tank; and a microcontroller device.

Abstract: An apparatus for producing gelled pearls includes: a housing with at least one opening into which a flavored liquid is provided; external components; and internal components. The external components include: a first ingress port through which a first refill pack is coupled; and a dispenser with tubing through which a processed solution is expelled into a gelling bath. The internal components include: a mixing tank for blending the flavored liquid with the first solution; a first flow valve fluidly coupled with the mixing tank and directing the flavored liquid into and out of the mixing tank; a second flow valve fluidly coupled with the mixing tank and directing flow of a proportional amount of the first solution into the mixing tank; and a microcontroller device.