Patent application number | Description | Published |
20120234207 | NUCLEATED CEMENTS AND RELATED METHODS - Methods and a kit. A cement forming method includes nucleating an acidic metallophosphate reaction mixture with first particles, resulting in forming a settable metallophosphate cement from the acidic metallophosphate reaction mixture. The first particles include a first metal oxide. Each particle of the first particles independently have a particle size in a range from about 15 microns to about 450 microns. A method for applying cement includes seeding a solution with particles, resulting in forming a settable cement from the solution. The particles have a size in a range from about 15 microns to about 450 microns. The solution includes a first metal oxide reacting with phosphate. The settable cement is applied to a substrate. A cement application kit is also described. | 09-20-2012 |
20130042537 | RESPONSIVE STRUCTURAL ELEMENTS - A responsive structural element including an elongate member having a first end and second end and defining a cross-section is provided. The structural element further includes a sensor, secured to the elongate member, for detecting at least one pre-selected indicator. Advantageously, the elongate member is responsive to the pre-selected indicator. | 02-21-2013 |
20150232383 | NUCLEATED CEMENTS AND RELATED METHODS - Methods and a kit. A cement forming method includes nucleating an acidic metallophosphate reaction mixture with first particles, resulting in forming a settable metallophosphate cement from the acidic metallophosphate reaction mixture. The first particles include a first metal oxide. Each particle of the first particles independently have a particle size in a range from about 15 microns to about 450 microns. A method for applying cement includes seeding a solution with particles, resulting in forming a settable cement from the solution. The particles have a size in a range from about 15 microns to about 450 microns. The solution includes a first metal oxide reacting with phosphate. The settable cement is applied to a substrate. A cement application kit is also described. | 08-20-2015 |
Patent application number | Description | Published |
20110079728 | RADIATION DETECTOR, METHOD OF MANUFACTURING A RADIATION DETECTOR AND USE OF THE DETECTOR FOR MEASURING RADIATION - A radiation detector is disclosed. The detector has an entrance opening etched through a low-resistivity volume of silicon, a sensitive volume of high-resistivity silicon for converting the radiation particles into detectable charges, and a passivation layer between the low and high-resistivity silicon layers. The detector also has electrodes built in the form of vertical channels for collecting the charges generated in the sensitive volume, and read-out electronics for generating signals based on the collected charges. | 04-07-2011 |
20110095193 | ULTRA THIN NEUTRON DETECTOR, METHOD FOR MANUFACTURING THE NEUTRON DETECTOR AND NEUTRON IMAGING APPARATUS - A detector ( | 04-28-2011 |
20110095194 | NEUTRON DETECTOR WITH NEUTRON CONVERTER, METHOD FOR MANUFACTURING THE NEUTRON DETECTOR AND NEUTRON IMAGING APPARATUS - A detector for detecting neutrons includes a neutron reactive material interacting with neutrons to be detected and releasing ionizing radiation reaction products in relation to the interactions. It also includes a first semiconductor element being coupled with the neutron reactive material and adapted to interact with the ionizing radiation reaction products and provide electrical charges proportional to the energy of the ionizing radiation reaction products. In addition electrodes are arranged in connection with the first semiconductor element for providing charge collecting areas for collecting the electrical charges and to provide electrically readable signal proportional to the collected electrical charges. In the detector the neutron reactive material is arranged so that the incident neutrons to be detected interact with the neutron reactive material essentially in the portion nearest to the charge collecting areas provided by the electrodes in the first semiconductor element to which the neutron reactive material is coupled with. | 04-28-2011 |
20130015363 | DETECTOR, METHOD FOR MANUFACTURING A DETECTOR AND IMAGING APPARATUS - A detector ( | 01-17-2013 |
20130020661 | DETECTOR, METHOD FOR MANUFACTURING A DETECTOR AND IMAGING APPARATUS - A detector ( | 01-24-2013 |
20140077089 | NEUTRON DETECTOR - A device for detecting neutrons includes at least one common module, where a number of solid state sensors are assembled. The sensors are configured in the module side by side and/or stacked in a layered structure. At least one of the sensors includes neutron reactive material as a neutron converter for interacting with neutrons incident thereon to be detected and to release ionizing radiation reaction products responsive to interactions with the incident neutrons. The neutron converters are coupled with corresponding semiconductor elements so that the semiconductor elements interact with the ionizing radiation reaction products for providing electrical charges in proportion to the energy of the ionizing radiation reaction products. The semiconductor elements are configured with electrodes for providing charge collection areas for collecting the electrical charges and to provide electrically readable signals proportional to the collected electrical charges. | 03-20-2014 |