Patent application number | Description | Published |
20090202808 | DAMAGE RESISTANT CHEMICALLY-TOUGHENED PROTECTIVE COVER GLASS - The invention is directed to a high strength, chemically toughened protective glass article, the glass article having a high damage tolerance threshold of at least 1500 g as measured by the lack of radial cracks when the load is applied to the glass using a Vickers indenter; preferably greater than 2000 g s measured by the lack of initiation of radial cracks when the load is applied to the glass using a Vickers indenter | 08-13-2009 |
20110129650 | METHOD FOR IMPROVING THE EDGE STRENGTH OF TEMPERED GLASS SHEET ARTICLES - A tempered glass sheet article includes a glass sheet having a thickness t, at least one edge, and at least one surface. The at least one edge is connected to the at least one surface by an edge-to-surface corner. The edge-to-surface corner is rounded with a radius r and has a surface compression that is at least 78% of a surface compression measured at or near a center of the at least one surface. | 06-02-2011 |
20110201490 | CRACK AND SCRATCH RESISTANT GLASS AND ENCLOSURES MADE THEREFROM - A glass and an enclosure, including windows, cover plates, and substrates for mobile electronic devices comprising the glass. The glass has a crack initiation threshold that is sufficient to withstand direct impact, has a retained strength following abrasion that is greater than soda lime and alkali aluminosilicate glasses, and is resistant to damage when scratched. The enclosure includes cover plates, windows, screens, and casings for mobile electronic devices and information terminal devices. | 08-18-2011 |
20130036463 | BIOMETRIC-ENABLED SMART CARD - A biometrics-enabled smart card for use in transactional or identity applications (e.g., credit cards and identity cards). The biometric smart card includes a substrate, a biometric sensor capable of reading biometric information through the substrate, and a microprocessor to process, store, and authenticate biometric information. The substrate has a Young's modulus of at least abut 50 GPa and a thickness of up to about 0.5 mm. | 02-07-2013 |
20130086946 | DAMAGE RESISTANT, CHEMICALLY TOUGHENED PROTECTIVE COVER GLASS - The invention is directed to a high strength, chemically toughened protective glass article, the glass article having a high damage tolerance threshold of at least 1500 g as measured by the lack of radial cracks when the load is applied to the glass using a Vickers indenter; preferably greater than 2000 g is measured by the lack of initiation of radial cracks when the load is applied to the glass using a Vickers indenter | 04-11-2013 |
20130095310 | DAMAGE RESISTANT, CHEMICALLY TOUGHENED PROTECTIVE COVER GLASS - The invention is directed to a high strength, chemically toughened protective glass article, the glass article having a high damage tolerance threshold of at least 1500 g as measured by the lack of radial cracks when the load is applied to the glass using a Vickers indenter; preferably greater than 2000 g s measured by the lack of initiation of radial cracks when the load is applied to the glass using a Vickers indenter | 04-18-2013 |
20140329660 | CRACK AND SCRATCH RESISTANT GLASS AND ENCLOSURES MADE THEREFROM - A glass and an enclosure, including windows, cover plates, and substrates for mobile electronic devices comprising the glass. The glass has a crack initiation threshold that is sufficient to withstand direct impact, has a retained strength following abrasion that is greater than soda lime and alkali aluminosilicate glasses, and is resistant to damage when scratched. The enclosure includes cover plates, windows, screens, and casings for mobile electronic devices and information terminal devices. | 11-06-2014 |
20150037543 | POLYMER EDGE-COVERED GLASS ARTICLES AND METHODS FOR MAKING AND USING SAME - Described herein are various polymer-covered glass and glass-ceramic articles that exhibit improved adhesion between the polymer and the glass or glass-ceramic, along with methods for their manufacture and use. The improved articles generally include a glass or glass-ceramic substrate, a surface-roughened coating disposed on at least a portion of an edge of the glass or glass-ceramic substrate, and a polymer covering disposed on at least a portion of the surface-roughened coating. The surface-roughened coatings beneficially allow the polymer coverings to adhere better to the edge surfaces of the glass or glass-ceramic substrates relative to similar or identical articles that lack the surface-roughened coating. | 02-05-2015 |
20150261261 | SENSOR EMBEDDED IN GLASS AND PROCESS FOR MAKING SAME - A cover assembly for an electronic device includes a sensor element embedded in the opening of a substrate such that the first side of the sensor element is flush with the first surface of the substrate. This allows for conductive elements in the sensor element to be present at a surface of the cover assembly. The conductive elements are inside via holes. A sensor substrate with the via holes can be formed using a redraw process or a laser damage and etch process. | 09-17-2015 |
Patent application number | Description | Published |
20100178203 | Non-Invasive Colorimetric-Based Infection Detector And Infection Detecting Bandage - A non-invasive, calorimetric infection detector is provided, comprised of a substrate, and one or more indicator compositions disposed upon or incorporated therein. These indicator compositions exhibit a persistent change color when exposed to gaseous oxides of nitrogen and acids formed therefrom, providing a means of detecting NO production in a wound, which has been found to occur at a high level at the onset of infection in a wound. In addition, a bandage is provided, comprised of the detector, as well as a porous portion, and preferably a hydrophobic barrier layer to protect the detector from contamination by water and other fluids draining from the wound. The non-invasive, calorimetric infection detector, and bandage containing same, can be utilized to provide a convenient, easily utilized colorimetric means of detecting the onset of wound infection, thereby enabling caregivers to effectively and timely treat infections. | 07-15-2010 |
20100278441 | Differential wavelength imaging method and system for detection and identification of concealed materials - A method and system for detection and identification of concealed materials, is provided, wherein a dark image and two or more NIR sample images are taken at two or more key wavelengths or bands of wavelengths corresponding to peaks and/or valleys in the NIR spectra of known materials, and differential wavelength imaging processes are used to produce a a differential wavelength image based on therein. The differential wavelength image is then analyzed/processed so as to detect any materials concealed on the target of interest, such as a human or piece of baggage, by calculation of pixel intensity values in the image and identification of distinctive pixel values. Then, via various methods, the distinctive pixel values of the detected materials are compared to a data set of known wavelengths related to known materials, such as explosives and other contraband. Correspondence thereof results in an accurate identification of the concealed material(s). | 11-04-2010 |
20110024302 | Molecular Imprinted Nanosensors And Process For Producing Same - A molecular recognition sensor system is provided incorporating a molecular imprinted nanosensor device formed by the process steps of:
| 02-03-2011 |
20130092547 | MOLECULAR IMPRINTED NANOSENSORS - A molecular recognition sensor system is provided incorporating a molecular imprinted nanosensor device. | 04-18-2013 |
20130114855 | Methods and Systems for Detection and Identification of Concealed Materials - Methods and systems for efficiently and accurately detecting and identifying concealed materials. The system includes an analysis subsystem configured to process a number of pixelated images, the number of pixelated images obtained by repeatedly illuminating regions with a electromagnetic radiation source from a number of electromagnetic radiation sources, each repetition performed with a different wavelength. The number of pixelated images, after processing, constitute a vector of processed data at each pixel from a number of pixels. At each pixel, the vector of processed data is compared to a predetermined vector corresponding to a predetermined material, presence of the predetermined material being determined by the comparison. | 05-09-2013 |
20140270342 | METHODS AND SYSTEMS FOR DETECTION AND IDENTIFICATION OF CONCEALED MATERIALS - Methods and systems for efficiently and accurately detecting and identifying concealed materials. The system includes an analysis subsystem configured to process a number of pixelated images, the number of pixelated images obtained by repeatedly illuminating regions with a electromagnetic radiation source from a number of electromagnetic radiation sources, each repetition performed with a different wavelength. The number of pixelated images, after processing, constitute a vector of processed data at each pixel from a number of pixels. At each pixel, the vector of processed data is compared to a predetermined vector corresponding to a predetermined material, presence of the predetermined material being determined by the comparison. | 09-18-2014 |
20150288893 | METHODS AND SYSTEMS FOR DETECTION AND IDENTIFICATION OF CONCEALED MATERIALS - Methods and systems for efficiently and accurately detecting and identifying concealed materials The system includes an analysis subsystem configured to process a number of pixelated images, the number of pixelated images obtained by repeatedly illuminating, through a patterning component, regions, where an electromagnetic radiation source, from a number of electromagnetic radiation sources, illuminates the patterning component, each repetition performed with a different wavelength. A number of Global pixelated images are obtained. The number of global pixelated images, after processing, constitute a vector of processed data at each pixel from a number of pixels. At each pixel, the vector of processed data is compared to a predetermined vector corresponding to a predetermined material, presence of the predetermined material being determined by the comparison. | 10-08-2015 |