Class / Patent application number | Description | Number of patent applications / Date published |
356033000 | With polarized light | 30 |
20090015818 | Catheter Surgery Simulation - It is possible to observe a state of stress applied to a region around a cavity replicating a body cavity such as a blood vessel and the like in a three-dimensional model. In catheter insert simulation, when stress is applied to the region around the cavity in the three-dimensional model, it is possible to observe the catheter state together with a photoelastic effect corresponding to the stress state in the surrounding region caused by the catheter. | 01-15-2009 |
20090244516 | Combination of ellipsometry and optical stress generation and detection - A method includes selecting one of performing ellipsometry or performing optical stress generation and detection. The method also includes, in response to selecting performing ellipsometry, applying at least one first control signal to a controllable retarder that modifies at least polarization of a light beam, and performing ellipsometry using the modified light beam. The method further includes, in response to selecting performing optical stress generation and detection, applying at least one second control signal to the controllable retarder, and performing optical stress generation and detection using the modified light beam. Apparatus and computer readable media are also disclosed. | 10-01-2009 |
20090310119 | PHOTOELASTIC LAYER WITH INTEGRATED POLARIZER - In accordance with the present invention, a photoelastic layer for detecting stress and strain is described. The photoelastic layer comprises a photoelastic material that when strained refracts light anisotropically. The photoelastic layer further comprises an integrated polarizer attached on top of the photoelastic material. Also in accordance with the present invention, a photoelastic monitoring device is described for structural monitoring. The photoelastic monitoring device is made out of a photoelastic material or comprises a photoelastic material attached to a base material. The photoelastic monitoring device further comprises an integrated polarizer attached or coated directly over at least a portion of the photoelastic material. The photoelastic monitoring device is designed to be attached to a structure or a part. The monitoring device is attached to the structure in such a way that stresses and strains from the structure are transmitted into the photoelastic monitoring device. When a certain predetermined stress or strain is reached, the monitoring device may deform plastically. The plastic deformation can then be detected in the photoelastic material using the integrated polarizer. Also in accordance with the present invention, a method is described for photoelastic analysis. The method comprises providing a photoelastic material to be analyzed for stresses and strains. An integrated polarizer is attached directly on top of at least a portion of the photoelastic material. The integrated polarizer is attached in such a way such that the photoelastic material can be illuminated with regular light through the integrated polarizer, and such that light can be reflected back through the photoelastic material and back through the integrated polarizer to the observer or the detector. The method comprises illuminating the polarizer with light, and viewing the reflections of light that have traveled through the integrated polarizer, through the photoelastic material, and been reflected back through the photoelastic material and back through the integrated polarizer. Observing or detecting fringe patterns in the reflected light indicate the presence of strain or plastic deformation in the photoelastic material. | 12-17-2009 |
20100118293 | PHASE RETARDANCE INSPECTION INSTRUMENT - A phase retardance inspection instrument, comprising: a light source module for generating a single-wavelength light beam; a circularly polarized light generating module, comprising a polarizer and a first phase retarder, for receiving the single-wavelength light beam as it is guided to passe through the polarizer and the first phase retarder in order; and a detecting module, comprising a second phase retarder, a polarizing beam splitter, a first image sensor and a second image sensor, for receiving and guiding a circularly polarized light beam to travel through the second phase retarder and the polarizing beam splitter in order after it passes through a substrate under inspection, wherein the polarizing beam splitter splits an elliptically polarized light beam into intensity vector components of a left-hand circularly polarized light beam and a right-hand circularly polarized light beam, which are to be emitted into the first image sensor and the second image sensor, respectively. | 05-13-2010 |
20100134783 | PHYSICAL QUANTITY MEASURING APPARATUS UTILIZING OPTICAL FREQUENCY DOMAIN REFLECTOMETRY AND METHOD FOR TEMPERATURE AND STRAIN MEASUREMENT USING THE APPARATUS - A physical quantity measuring apparatus utilizing optical frequency domain reflectometry includes a tunable laser; a first polarization maintaining fiber; a polarization maintaining coupler; a second polarization maintaining fiber; a third polarization maintaining fiber; a sensor consists of a fiber Bragg grating formed in a core of the third polarization maintaining fiber; a fourth polarization maintaining fiber; a photodiode detects Bragg reflected light from the sensor and reference light from the referential reflecting end; a controller that detects modulation of an interference intensity between the Bragg reflected light and the reference light; and an incidence part that inputs the measuring light, wherein the incidence part being provided on the first polarization maintaining fiber or on both the second polarization maintaining fiber and the third polarization maintaining fiber. | 06-03-2010 |
20100141930 | PHYSICAL QUANTITY MEASURING APPARATUS UTILIZING OPTICAL FREQUENCY DOMAIN REFLECTOMETRY, AND METHOD FOR SIMULTANEOUS MEASUREMENT OF TEMPERATURE AND STRAIN USING THE APPARATUS - A physical quantity measuring apparatus utilizing optical frequency domain reflectometry of the invention includes a tunable laser; a first polarization-maintaining fiber; a polarization-maintaining coupler; a second polarization-maintaining fiber; a third polarization-maintaining fiber; a sensor consists of fiber Bragg gratings formed at a core of the third polarization-maintaining fiber; a fourth polarization-maintaining fiber; a photodiode detects Bragg reflected light from the sensor and reference light from the referential reflecting end; a controller detects a modulation of an interference intensity between the Bragg reflected light and the reference light, based on an intensity change of multiplexed light of the Bragg reflected light and the reference light; an incidence part inputs the measuring light; and an optical path-length adjuster arranged on the third polarization-maintaining fiber; the incidence part provided on the first polarization-maintaining fiber, or on both the second and third polarization-maintaining fibers. | 06-10-2010 |
20110032510 | Glass Stress Measurement Using Fluorescence - An apparatus and method for measurement of the stress in and thickness of flat glass or curved glass segments is disclosed that uses fluorescence to quickly and accurately ascertain both the thickness of the stress layers and the wall thickness in addition to the stress curve in flat glass or curved glass segments. The apparatus and method may be used to quickly and accurately measure both the stress in and the thickness of flat glass or curved glass segments at a plurality of various locations therein. The apparatus and method are adapted for large scale flat glass or curved glass segment manufacturing, and are capable of high speed measurement of the stress in and the thickness of the flat glass or curved glass segments. | 02-10-2011 |
20110043787 | PHOTOELASTIC METHOD FOR ABSOLUTE DETERMINATION OF ZERO CTE CROSSOVER IN LOW EXPANSION SILICA-TITANIA GLASS SAMPLES - The disclosure is directed to a photoelastic method for measuring the absolute Tzc of a sample of materials (transparent glass, glass-ceramic or ceramic) directly, without requiring calibration against a primary technique. The method involves subjecting the sample to a temperature gradient that generates a stress distribution pattern within the sample. When some portion of the sample is at a temperature equal to the Tzc of the material, the pattern adopts an easily identifiable shape whose measurement allows the calculation of Tzc. Silica-titania glass, which has a low thermal expansion, is used as an exemplary material. | 02-24-2011 |
20110228255 | DISTRIBUTED OPTICAL FIBER SENSOR - The present invention provides a distributed optical fiber sensor capable of measuring the strain and temperature of an object to be measured simultaneously and independently with high spatial resolution. A distributed optical fiber sensor FS is a distributed optical fiber sensor which uses an optical fiber | 09-22-2011 |
20120176598 | APPARATUS AND METHOD FOR QUANTIFYING RESIDUAL STRESS OF A BIREFRINGENT MATERIAL - An apparatus for quantifying residual stress of a birefringent material comprises a light source generating light; a vertical polarizer converting a beam of light into a beam with vertical polarization; a standard material being mounted in front of the vertical polarizer; a horizontal polarizer converting a beam of light into a beam with horizontal polarization; an applied force unit applying different forces to the standard material; a spectrometer being mounted in front of the horizontal polarizer and recording intensity of light passing through the horizontal polarizer and transmittance of the standard material and a processing module being connected to the spectrometer, deriving a stress formula from the applied forces and transmittances of the standard material and obtaining a stress distribution of the birefringent material. A method for quantifying residual stress of a birefringent material is also disclosed. | 07-12-2012 |
20120281201 | System and Method for Brillouin Analysis - A Brillouin analysis sensor system comprising: a Brillouin analysis sensor; a polarization beam splitter/combiner, operably connected to the Brillouin analysis sensor between the sensor and the sensing fibre, for receiving polarized lightwaves from the sensor, combining the lightwaves and launching combined lightwaves waves in the sensing fibre a first direction, and a phase conjugate mirror at a free end of the sensing fibre for receiving combined lightwaves from the polarization beam splitter/combiner, rotating the polarization of the combined lightwaves and launching the rotated combined lightwaves in the sensing fibre in an opposing direction to the first direction. | 11-08-2012 |
20120314202 | POLARISCOPE STRESS MEASUREMENT TOOL AND METHOD OF USE - The present invention provides a tool for and method of using an infrared transmission technique to extract the full stress components of the in-plane residual stresses in thin, multi crystalline silicon wafers including in situ measurement of residual stress for large cast wafers. The shear difference method is used to obtain full stress components by integrating the shear stress map from the boundaries. System ambiguity at the boundaries is resolved completely by introducing a new analytical function. A new anisotropic stress optic law is provided, and stress optic coefficients are calibrated for different crystal grain orientations and stress orientations. | 12-13-2012 |
20130250277 | APPARATUS FOR QUANTIFYING UNKNOWN STRESS AND RESIDUAL STRESS OF A MATERIAL AND METHOD THEREOF - An apparatus for quantifying unknown stress and residual stress of a material to be tested, the material being a birefringent or temporary birefringent material, which includes a light source, a polarizer in front of the light source for converting a light beam from the light source into a beam with linear polarization, a first quarter-wave plate in front of the polarizer for generating circular polarization, a standard material, a second quarter-wave plate, an analyzer, a loading unit, a spectrometer for obtaining transmissivity spectrum of the standard material under the wavelength of the light source and a detecting module connected to the spectrometer to have the transmissivity spectrum of the material to be tested and consequently a stress quantifying formula for the standard material. | 09-26-2013 |
20140211195 | PLASMON RESONANCE BASED STRAIN GAUGE - A strain gauge or other device may include a deformable medium and discrete plasmon supporting structures arranged to create one or more plasmon resonances that change with deformation of the medium and provide the device with an optical characteristic that indicates the deformation of the medium. | 07-31-2014 |
20140320846 | OPTICAL POSITION AND/OR SHAPE SENSING - An accurate measurement method and apparatus using an optical fiber are disclosed. A total change in optical length in an optical core in the optical fiber is determined that reflects an accumulation of all of the changes in optical length for multiple segment lengths of the optical core up to a point on the optical fiber. The total change in optical length in the optical core is provided for calculation of an average strain over a length of the optical core based on the detected total change in optical length. | 10-30-2014 |
20150146192 | Optical measurement system with polarization compensation, and corresponding method - A method for the adjustment of an optical measurement system comprises providing an optical measurement system, which comprises, as optical elements, a beam splitter; a first photo sensor, exposed by a first partial beam from the beam splitter; an optical filter; a second photo sensor, arranged downstream of the optical filter, exposed by a second partial beam from the beam splitter. Additionally, the angularity and relative position between multiple optical elements is designed to be adjustable. The method further comprises providing a device for generating a difference signal from the two photo sensors; providing a light source with periodically varying polarization; irradiating the light in the beam splitter, so that the two respective photo sensors are exposed by a partial beam; generating a difference signal of the output signals of the photo sensors; varying the position and/or angularity of at least one optical element, and observing the difference signal, determine the combination of angularity/position of the elements where a minimum difference signal is achieved, and configuring the angularity of the optical elements to the determined values. Further, a corresponding system is proposed. | 05-28-2015 |
20160109223 | DISTRIBUTED BRILLOUIN SENSING USING CORRELATION - Methods and systems for sensing conditions of a fiber include splitting a light signal into two branches. A first branch is converted to have a mode different from that of the second branch. Both branches are mode multiplexed into a single fiber. An output of the fiber is mode demultiplexed into the two branches. The first branch is mode converted to its original mode. Brillouin scattering patterns of the two branches are compared to determine a temperature and strain profile of the fiber. | 04-21-2016 |
20160252345 | STRAIN SENSOR AND METHOD OF MEASURING STRAIN AMOUNT | 09-01-2016 |
20180024016 | METHOD FOR ANALYZING STRESS IN AN OBJECT | 01-25-2018 |
356034000 | Attached detector | 7 |
20120140204 | KIT COMPRISING A SUPPORTING DEVICE FOR A TRANSPARENT ARTICLE AND A POLARIMETER - The present invention relates to a kit comprising a supporting device for maintaining a transparent article having a longitudinal axis A, a proximal end and a distal end, said supporting device including a proximal holder including a port intended to receive the proximal end of said article, and a distal holder including a receiving part intended to receive the distal end of said article, said port and said receiving part being aligned on the same longitudinal axis B, said supporting device further comprising compression means for putting said article under longitudinal compression directed towards a center of said article, when said article is mounted on said supporting device with its longitudinal axis A aligned on said longitudinal axis B, and a polarimeter. The invention also pertains to a method for measuring the stress inside an article made of transparent material. | 06-07-2012 |
20130141712 | LOW COHERENCE INTERFEROMETRIC SYSTEM FOR PHASE STEPPING SHEAROGRAPHY COMBINED WITH 3D PROFILOMETRY - The present invention relates to a portable industrial instrument for performing, in an integrated and two-way manner, an interferometric fringe projection and shearography, on a object to be tested, so that, when the two-way interferometer ( | 06-06-2013 |
20150377722 | STRESS DETECTION DEVICE FOR LIGHT-TRANSMISSIVE STRUCTURE AND STRESS DETECTION METHOD FOR THE SAME - A stress detection device and a detection method for a light-transmissive structure are disclosed. The stress detection device for a light-transmissive structure comprises: a light source, a first polarizer, a light intensity distribution state detection unit and a stress distribution state analysis unit; wherein the light source emits uniform polarized light; during detection, the first polarizer and the light sources are located at opposite sides of the light-transmissive structure, respectively; the light intensity distribution state detection unit is configured to obtain a light intensity distribution state of the polarized light emitted from the first polarizer; the stress distribution state analysis unit is configured to obtain a stress distribution state of the light-transmissive structure according to the light intensity distribution state. | 12-31-2015 |
20160084640 | REAL-TIME NON-LINEAR OPTICAL STRAIN GAUGE SYSTEM - A system for measuring strain includes an optical fiber having a central portion secured between two fixed points. A first light source outputs light at a first frequency and a second light source outputs light at a second different frequency. The two light sources are both coupled to a first end of the optical fiber. A back scatter detector is also coupled to the first end to receive a return light signal from the optical fiber and outputs a signal based thereon. A forward scatter detector is coupled to a second end of the optical fiber to receive a forward light signal from the optical fiber and outputs a signal based thereon. A processor receives the signals from the back scatter detector and the forward scatter detector and generates an output signal proportional to the strain between the two fixed points based on the received signals. | 03-24-2016 |
20160097634 | 1-DIMENSIONAL AND 2-DIMENSIONAL DISTRIBUTED FIBER-OPTIC STRAIN AND STRESS SENSORS BASED ON POLARIZATION MAINTAINING FIBER USING DISTRIBUTED POLARIZATION CROSSTALK ANALYZER AS AN INTERROGATOR - Techniques and devices for measuring polarization crosstalk in polarization maintaining fiber by placing the PM fiber in a 1-dimensional or 2-dimensional configuration for sensing stress or strain exerted on the PM fiber at different locations along the fiber with a high spatial sensing resolution | 04-07-2016 |
20160109222 | HYBRID RAMAN AND BRILLOUIN SCATTERING IN FEW-MODE FIBERS - Methods and systems of sensing conditions in a fiber includes launching a light beam into a fiber. A first branch of scattered light is set to a mode other than a fundamental mode. A second branch of scattered light is optically filtered to remove unscattered input light. Brillouin scattered light is coherently detected on the first branch to produce a combined temperature/strain profile of the fiber. Raman scattered light on the second branch is directly detected to produce a temperature profile of the fiber. A strain profile of the fiber is determined, using a processor, based on the combined temperature/strain profile and the temperature profile. | 04-21-2016 |
20160169664 | STRESS DISPLAY MEMBER AND STRAIN MEASUREMENT METHOD USING STRESS DISPLAY MEMBER | 06-16-2016 |
356035000 | Sheet material | 4 |
20090310120 | MONITORING DEVICE FOR DETECTING STRESS STRAIN AND METHOD FOR USING SAME - The present invention provides a monitoring device for detecting stresses and strains in structural components and a method of using the monitoring device. The monitoring device comprises a base material, one or more attachment points for attaching the monitoring device to a structure to be monitored, a detection zone on the monitoring device, and a means for detecting the presence of stress and strain in the detection zone. The dimensions and material of the monitoring device are chosen such that a predetermined level of strain transmitted to the monitoring device from the structure will result in a known level of stress and strain in the detection zone. Detection of stress and strain in the detection zone can be correlated to a level of stress and strain experienced by the structure at the point of attachment of the monitoring device. | 12-17-2009 |
20090310121 | PHOTOELASTIC COATING FOR STRUCTURAL MONITORING - In accordance with an aspect of the present invention, there is provided a photoelastic coating for structural monitoring comprising an optically translucent or transparent photoelastic layer. The photoelastic coating is applied to the structure as a solvent-based liquid or gel that can be cured without heating. The photoelastic properties of the photoelastic layer can be used to detect stress and strain or plastic deformation in the structure using photoelastic techniques. | 12-17-2009 |
20120300193 | Examination Kit for Polarized Lens - An examination kit allows for discovery of the axis of direction and stress areas of polarized lenses. The kit comprises a lower light box with a transparent work surface, two polarized film sheets, a dial gauge with notches defining allowable variation of axis direction and an upper polarized lens for viewing the tested polarized lens in various states and positions. | 11-29-2012 |
20150036120 | METHOD AND ARRANGEMENT FOR MEASURING BLOWING STRUCTURES OF A PRESTRESSED DISC - A method for measuring blowing structures of a prestressed disc is described. The method has the steps of: (a) irradiating at least one analysis area of the disc with linearly polarized light from a radiation source at an angle of incidence and recording an image at least of the analysis area at an angle of observation using at least one detector, (b) supplying the image to an evaluation unit, and (c) using the evaluation unit to read a brightness profile along an analysis line on the image, to determine the local maxima and the local minima of the brightness profile, and to determine an intensity index by means of the difference between a brightness mean of the local maxima and a brightness mean of the local minima. | 02-05-2015 |