Patent application number | Description | Published |
20100000604 | FRAMED DEVICE, SEAL, AND METHOD FOR MANUFACTURING SAME - The disclosure is directed to a framed device. The framed device includes a substrate, a frame, and a seal. The substrate has a first length, a first width, and a peripheral edge. The frame has a second length, a second width, and a groove that runs along the second length and the second width of the frame. The groove is substantially engaged with the peripheral edge of the substrate. The seal is disposed within the groove of the frame, wherein the seal runs contiguously from the substrate to the frame and the seal includes a foamed polymer. | 01-07-2010 |
20100000605 | FRAMED DEVICE, SEAL, AND METHOD FOR MANUFACTURING SAME - The disclosure is directed to a framed device. The framed device includes a substrate, a frame, and a seal. The substrate has a first length, a first width, and a peripheral edge. The frame has a single, contiguous lengthwise piece having a first end and a second end, wherein the lengthwise piece is configured to form three corners by bending and is substantially equal to the length of the substrate. The frame further includes an attachment means connecting the first end and second end of the frame when in the bent position and a groove that runs along a length and a width of the frame, wherein the groove is substantially engaged with the peripheral edge of the substrate. The seal is disposed within the groove of the frame, wherein the seal runs contiguously from the substrate to the frame and the seal includes a foamed polymer. | 01-07-2010 |
20110146793 | FRAMED DEVICE, SEAL, AND METHOD FOR MANUFACTURING SAME - A framed device includes a substrate, a frame, and a seal. The substrate has a first length, a first width, and a peripheral edge. The frame has a single, contiguous lengthwise piece having a first end and a second end, wherein the lengthwise piece is configured to form three corners by bending and is substantially equal to the length of the substrate. The frame further includes an attachment means connecting the first end and second end of the frame when in the bent position and a groove that runs along a length and a width of the frame, wherein the groove is substantially engaged with the peripheral edge of the substrate. The seal is disposed within the groove of the frame, wherein the seal runs contiguously from the substrate to the frame and the seal includes a foamed polymer. | 06-23-2011 |
Patent application number | Description | Published |
20120070620 | SELF-ADHESIVE FRAME - A shipping assembly includes a packaging sufficient for transport, and a plurality of frame assemblies within the packaging. Each frame assembly includes a frame having a groove configured to receive a flat panel, and an adhesive disposed within the groove. The groove has first and second side surfaces and a base surface therebetween. In an embodiment, the adhesive is an adhesive tape including a compressible core and a first adhesive surface. In another embodiment, the adhesive is a liquid adhesive having a viscosity of at least about 25 Pa·s at a temperature of 40° C. In yet another embodiment, the adhesive is a semi-liquid adhesive having a viscosity of not greater than about 200 Pa·s at a temperature of 150° C. | 03-22-2012 |
20140230898 | Framed Device, Seal, and Method for Manufacturing Same - The disclosure is directed to a framed device. The framed device includes a substrate, a frame, and a seal. The substrate has a first length, a first width, and a peripheral edge. The frame has a second length, a second width, and a groove that runs along the second length and the second width of the frame. The groove is substantially engaged with the peripheral edge of the substrate. The seal is disposed within the groove of the frame, wherein the seal runs contiguously from the substrate to the frame and the seal includes a foamed polymer. | 08-21-2014 |
Patent application number | Description | Published |
20090050049 | TIME-TEMPERATURE INDICATORS - A visual thermal history indicator comprising a pattern produced from at least two waxes wherein one wax has a melting point that differs from the other wax, or where the waxes have the same melting point but different melt flow behaviour, and wherein the pattern is adapted so that when the lower melting point wax melts or the wax with greater melt flow behaviour flows, the visual appearance of the pattern changes, and wherein when the second and subsequent higher melting waxes melt, or when the lower melt flow behaviour waxes flow, the visual appearance of the pattern changes as each wax melts or flows. | 02-26-2009 |
20110002847 | METHOD OF FORMING AN INJECTABLE RADIOACTIVE COMPOSITION OF A CARBON ENCAPSULATED RADIOACTIVE PARTICULATE - A method of forming an injectable radioactive composition, the method comprising the steps of: (a) depositing a solid form of technetium onto a carbon crucible; (b) preheating the solid form of technetium to remove any carrier; (c) plasma ablating the technetium and portions of the carbon crucible; (d) allowing the carbon and technetium metal to co-condense from the gas phase to produce a nanoparticle composite aerosol in an inert gas; (e) dispersing the nanoparticle composite in water containing a low concentration of surfactant using an electrostatic precipitator; (f) size fractionating the nanoparticle dispersion by filtration with hydrophilic membranes of known pore size. | 01-06-2011 |
20110165069 | METHODS FOR RADIOLABELING MACROMOLECULES - The present invention relates to a method for preparing a radiolabeled macromolecule, the method comprising contacting a macromolecule with a carbon encapsulated nanoparticle composite having a radioactive particulate core in an aqueous medium comprising a pH selected to promote short-range attractive forces between the nanoparticles and the macromolecule by attenuating repulsive electrostatic forces. | 07-07-2011 |
20110165070 | METHODS FOR RADIOLABELING SYNTHETIC POLYMERS - The present invention relates to a method for preparing a radiolabeled synthetic polymer, the method comprising contacting a synthetic polymer with a carbon encapsulated nanoparticle composite having a radioactive particulate core in an aqueous medium comprising an electrolyte concentration or pH selected to promote short-range attractive forces between the nanoparticles and the synthetic polymer by attenuating long-range electrostatic repulsive forces. | 07-07-2011 |