Class / Patent application number | Description | Number of patent applications / Date published |
374043000 | DETERMINATION OF INHERENT THERMAL PROPERTY (E.G., HEAT FLOW COEFFICIENT) | 81 |
20080317090 | METHOD AND APPARATUS FOR THERMOGRAPHIC NONDESTRUCTIVE EVALUATION OF AN OBJECT - A method and system for determining thermal diffusivity and porosity of an article are provided. The method comprises heating a surface of the article, capturing image data corresponding to an evolution of lateral heat flow from the surface of the article, applying a thermal time of flight analysis on the image data and determining thermal diffusivity and porosity values of the article using the thermal time of flight analysis for the lateral heat flow. | 12-25-2008 |
20090016402 | SYSTEM AND METHOD FOR THERMAL INSPECTION OF PARTS - A method of thermal inspection of a part having at least one internal cavity is provided. The method includes flowing a fluid through the at least one internal cavity. The method also includes measuring a temperature at one or more locations on the part over time. The method further includes calculating at least one of a first and a second derivative of the temperature with respect to time. The method also includes comparing at least one of the first or the second derivative to one or more baseline values to determine if the part meets a desired specification. | 01-15-2009 |
20090110025 | APPARATUS AND METHOD FOR MEASURING THERMAL DIFFUSIVITY USING THE FLASH METHOD - The present invention relates to an apparatus and method for measuring thermal diffusivity using the flash method. The apparatus includes: a laser generator | 04-30-2009 |
20090274191 | SINGLE BEAM OPTICAL APPARATUS AND METHOD - A single-beam optical apparatus suitable for measuring thermal diffusivity of a sample having a laser source generating a focused laser beam capable of heating a portion of the sample so as to create a thermal bump via thermal dilation, the thermal bump reflecting a reflected portion of the focused laser beam, means for modulating the intensity of the laser beam, an aperture, a sensor positioned relative to the reflected portion of the focused laser beam so as to generate a measured signal from the reflected portion of the focused laser beam that passes through the aperture, and a module for determining at least the parameters of a relationship between a property of the thermal bump and the measured signal. | 11-05-2009 |
20090296772 | HEAT TRANSFER EVALUATING APPARATUS - Disclosed is a heat transfer evaluation apparatus of a nano-fluid including: a long pipe formed as a circular pipe; a rub tube connected to one end of the long pipe to surround the outer surface of the long pipe; a short pipe communicated through the rub tube; and a hot wire sensor formed of a metal hot wire at one end of the short pipe. | 12-03-2009 |
20100020843 | Thermal Bend Actuator Material Selection - A thermoelastic device comprising an expansive element is disclosed. The expansive element is formed from a material, which is preselected on the basis that it has one or more of the following properties: a resistivity between 0.1 μΩm and 10.0 μΩm; chemically inert in air; chemically inert in the chosen ink; and depositable by CVD, sputtering or other thin film deposition technique. | 01-28-2010 |
20100046574 | APPARATUS FOR THERMAL CHARACTERIZATION UNDER NON-UNIFORM HEAT LOAD - What is disclosed is an apparatus for determining the cooling characteristics of a cooling device used for transferring heat from an electronic device. The apparatus comprising a cooling device thermally coupled to a heat pipe. The heat pipe having an exposed surface for the selective application of heat thereon. A localized heat source is selectively applied to at least one region of the exposed surface. The heat source preferably capable of being varied both positionally relative to the exposed surface and in heat intensity. A heat shield is preferably positioned around the exposed surface of the heat pipe to isolate the operational cooling device from the localized heat source. A temperature detector repeatedly measures a temperature distribution across the exposed surface while the cooling device is in a heat transfer mode. The temperature distribution is then used to thermally characterize the cooling device. | 02-25-2010 |
20100111134 | COOLING CAPACITY MEASUREMENT METHOD FOR INVERTER DEVICE - An inverter device is provided that can measure a decrease in cooling capacity caused by a finite service life of a cooling fan or clogging of a cooling fin, without being affected by an ambient temperature or a load state. A thermal time constant is calculated in a thermal time constant calculation circuit from a temperature detection value from a temperature detection circuit and a time signal from a timer on the basis of an operation/stop command for the inverter device. The calculated value of the thermal time constant calculated in the thermal time constant calculation circuit is compared by a comparator with a reference value of the thermal time constant that is stored in advance in a memory. Whether the cooling capacity has decreased is determined based on the comparison results. | 05-06-2010 |
20100142584 | DIGITAL LINEAR HEAT DETECTOR WITH THERMAL ACTIVATION CONFIRMATION - The present invention provides a digital linear heat detector with thermal activation confirmation. In operation, a run of the digital linear heat detector with thermal activation confirmation may be made throughout a building and operatively interconnected with a monitoring circuit. Opposite the monitoring circuit at the end of the length of digital linear heat detector with thermal activation confirmation is a resistor that terminates the digital linear heat detector with thermal activation confirmation. A digital linear heat detector with thermal activation confirmation comprises a pair of spring conductors. At least one of which is coated with a thermoplastic NTC material and at least one of which is coated with a non-conductive heat sensitive material. One or both of the conductors may be coated with both the NTC material and the non-conductive heat sensitive material in alternative embodiments of the present invention. | 06-10-2010 |
20100329299 | APPARATUS AND METHOD FOR MEASURING CONVECTIVE HEAT TRANSFER COEFFICIENTS OF NANOFLUIDS - The present invention relates to an apparatus and method for measuring the convective heat transfer coefficients of nanofluids, which can realize a small-sized structure and can accurately control the movement velocity of a hot wire sensor within a fluid. | 12-30-2010 |
20110103423 | Apparatus for Measuring the Temperature Coefficient of a Concentrator Photovoltaic Module - Disclosed is an apparatus for measuring temperature coefficients of a concentrator photovoltaic module. The apparatus includes a solar simulator for providing a radiant source, a environment chamber, a concentrator photovoltaic module, a temperature control unit for controlling the temperature of environment chamber, a circuit-voltage curve measurement unit for measuring current-voltage characteristics of a photovoltaic device and a reference cell for measuring the irradiation of the solar simulator. | 05-05-2011 |
20110122914 | METHOD FOR DETECTING PERFORMANCES OF HEAT DISSIPATION MODULES - A corresponding relation between heat resistance values of first heat dissipation modules under a non-uniform heat source and heat resistance values of the first heat dissipation modules under a uniform heat source is described through a linear equation. Therefore, before second heat dissipation modules are tested, a calculation is performed with the linear equation, such that a target heat resistance value of the first heat dissipation modules arranged on the non-uniform heat source is corresponding to a standard heat resistance value of the first heat dissipation modules arranged on the uniform heat source. Afterwards, it is predicted whether the second heat dissipation modules arranged on the non-uniform heat source satisfy a test standard or not by using a test heat resistance value acquired by testing the second heat dissipation modules arranged on the uniform heat source. | 05-26-2011 |
20110164653 | THERMAL INSPECTION SYSTEM AND METHOD INCORPORATING EXTERNAL FLOW - A thermal inspection method is disclosed. The inspection method includes disposing a component in a wind tunnel configured to create a predetermined Mach number distribution for an external surface of the component. A gas is supplied at a known temperature T into the wind tunnel to create an external flow of gas over the external surface of the component in accordance with the predetermined Mach number distribution. The inspection method further includes directly or indirectly measuring one or more external surface temperatures of the component to generate an external surface temperature distribution for the external surface of the component and using the external surface temperature distribution to perform a quality control inspection of the component. A thermal inspection system is also provided. | 07-07-2011 |
20120014404 | Apparatus and Method for Determining the Thermal Stability of Fluids - A thermal oxidation tester is shown for determining thermal stability of a fluid, particularly hydrocarbons when subjected to elevated temperatures. The tendency of the heated fluid to oxidize and (1) form deposits on a surface of a heater tube and (2) form solids therein, are both measured at a given flow rate, temperature and time. The measured results are used to determine whether a fluid sample passes or fails the test. Results of measurements are recorded in a memory device on one end of the heater tube on which the deposits were made. | 01-19-2012 |
20120014405 | Drop Counter And Flow Meter For Apparatus And Method For Determining The Thermal Stability Of Fluids - A thermal oxidation tester is shown for determining thermal stability of a fluid, particularly hydrocarbons when subjected to elevated temperatures. The tendency of the heated fluid to oxidize and (1) form deposits on a surface of a heater tube and (2) form solids therein, are both measured at a given flow rate, temperature and time. The measured results are used to determine whether a fluid sample passes or fails the test. Sample flow rate is important in the jet fuel thermal oxidation test. Current practice requires manual drop counting or flow confirmation with the use of volumetric glassware. An apparatus is described to precisely measure the flow rate and automatically perform flow rate check using a drip rate method and/or volumetric method. | 01-19-2012 |
20120014406 | CONTAINERS USED IN DETERMINING THE THERMAL STABILITY OF FUELS - A thermal oxidation tester is shown for determining thermal stability of a fluid, particularly hydrocarbons, when subjected to elevated temperatures. The tendency of the heated fluid to oxidize and (1) form deposits on a surface of a heater tube and (2) form solids therein which are both measured at a given flow rate, temperature and time. The measured results are used to determine whether a fluid sample passes or fails the test. Specifically constructed containers used in a thermal oxidation tester are shown. These containers (1) reduce physical contact to hydrocarbon test fuels, (2) reduce exposure to hydrocarbon fuel vapors, (3) reduce environmental impact by reducing chemical spills, and (4) improve overall work flow of test. | 01-19-2012 |
20120014407 | Auto Priming and Flushing an Apparatus for Determining the Thermal Stability of Fluids - A thermal oxidation tester is shown for determining thermal stability of a fluid, particularly hydrocarbons when subjected to elevated temperatures. The tendency of the heated fluid to oxidize and (1) form deposits on a surface of a heater tube and (2) form solids therein, are both measured at a given flow rate, temperature and time. The measured results are used to determine whether a fluid sample passes or fails the test. At the beginning of each test, the test sample is aerated with dry air until saturation. Simultaneously, the test equipment is primed to remove pockets of air there from. After each test, the test equipment is flushed to remove the test sample there from. | 01-19-2012 |
20120014408 | Detecting a Short in an Apparatus and Method for Determining the Thermal Stability of Fluids - A thermal oxidation tester is shown for determining thermal stability of a fluid, particularly hydrocarbons when subjected to elevated temperatures. The tendency of the heated fluid to oxidize and (1) form deposits on a surface of a heater tube and (2) form solids therein, are both measured at a given flow rate, temperature and time. The measured results are used to determine whether a fluid sample passes or fails the test. Results of measurements can be recorded in a memory device on one end of the heater tube on which the deposits were made. A method and apparatus is also provided to determine if the isolated heater tube has an electrical short to ground through the test section housing. | 01-19-2012 |
20120014409 | Dampening Apparatus and Method for Single Piston Pump Used in Determining the Thermal Stability of Fluids - A thermal oxidation tester is shown for determining thermal stability of a fluid, particularly hydrocarbons when subjected to elevated temperatures. The tendency of the heated fluid to oxidize and (1) form deposits on a surface of a heater tube and (2) form solids therein, are both measured at a given flow rate, temperature and time. The measured results are used to determine whether a fluid sample passes or fails the test. Results of the measurements are recorded. The fluid under test is pumped with a low volume, high pressure, single piston pump with only a small fluctuation (pulsation) in output flow. | 01-19-2012 |
20120327969 | TEST METHOD AND DEVICE FOR TESTING HEAT SINK - A test device for testing a heat sink including a plurality of fasteners is provided. Each fastener includes a screw and a spring sleeved on the screw. The test device includes a base, a heater arranged on the base, and a temperature sensor staying in contact with the heater and configured to detect a temperature of the heater. A timer counts a time duration during which the temperature of the heater changes from a first value to a second value. The heat sink is connected to the base by the screws and resides on the heater. | 12-27-2012 |
20130243028 | APPARATUS AND METHOD FOR PHASE EQUILIBRIUM WITH IN-SITU SENSING - A technique facilitates the monitoring of thermodynamic properties of reservoir fluids. The technique utilizes a modular sensor assembly designed to evaluate a sample of a hydrocarbon-containing fluid within a cell body. A variety of sensors may be selectively placed into communication with a sample chamber within the cell body to evaluate the sample at potentially high pressures and temperatures. The sensors may comprise a density-viscosity sensor located in-situ to efficiently measure both the density and viscosity of the sample as a function of pressure and temperature. Other sensors, such as an optic sensor, may also be positioned to measure parameters of the sample while the sample is retained in the sample chamber. | 09-19-2013 |
20130266038 | APPARATUS AND METHOD FOR MEASURING THERMAL DIFFUSIVITY - An apparatus for measuring thermal diffusivity includes a Raman spectroscope, a heating device, and a signal analyzing unit. The Raman spectroscope is utilized to measure a Raman scattering intensity of different sites of a film to be measured. The heating device is utilized to provide a controllable thermal driving wave. The signal analyzing unit is utilized to analyze the Raman scattering intensity from the Raman spectroscope and the thermal driving wave so as to evaluate the thermal diffusivity of the film to be measured. | 10-10-2013 |
20140348202 | Method for detecting presence of a droplet on a heated temperature sensor - A method for detecting the presence of a droplet on a heated temperature sensor, especially on a heated temperature sensor of a thermal, flow measuring device for measuring flow of a fluid. The method steps are as follows: ascertaining the greatest value of a measure for heat transfer from the heated temperature sensor to the fluid in a first time window of predetermined length; testing values of the measure for heat transfer in the first time window for the presence of values of the measure for heat transfer before and after the greatest value of the measure for heat transfer, which are less than the difference between the greatest value and a predetermined Δ | 11-27-2014 |
20150110150 | THERMAL PROPERTY MICROSCOPY WITH FREQUENCY DOMAIN THERMOREFLECTANCE AND USES THEREOF - The present invention relates to frequency domain thermoreflectance (FDTR) imaging of a thermophysical property or a set of thermophysical properties of a sample. A method comprises measuring the amplitude and/or phase of a beam of radiation reflected from a sample surface, while a heat source applied to the sample is modulated at at least two modulation frequencies simultaneously. Such measurement can be reiterated as a probe beam is scanned across the sample surface or a portion thereof. A 2D image or map of a thermophysical property or a set of thermophysical properties can be generated from data processing. Also provided herein is an apparatus for performing FDTR imaging. | 04-23-2015 |
20150377806 | METHOD OF ANALYZING PRESS FORMING - A method of analyzing press-forming of a press-forming material including analyzing press-forming, analyzing springback and analyzing a change in shape of the press-forming material. The analyzing press-forming may include setting an initial temperature distribution for the heated press-forming material and performing a press-forming analysis by combining temperature analysis and structural analysis to obtain shape information, temperature distribution, stress distribution, and strain distribution. The analyzing springback may occur with and without consideration of contact heat transfer between a press-forming tool and the press-forming material. The method may further include modifying the temperature distribution obtained in the analyzing springback and then re-analyzing the change in shape of the press-forming material. The analyzing the change in shape may be performed until a temperature distribution in the press-forming material is within the range of ±5° C. | 12-31-2015 |
20160033431 | THERMAL DIFFUSIVITY MEASURING DEVICE - In a periodic heating radiation temperature measuring technique thermophysical property measuring device that is equipped a heating laser beam irradiator to irradiate laser beams periodically to a sample at a frequency f and an infrared light condenser to condense infrared light radiated from a certain point of the sample, wherein the heating laser beam irradiator and the infrared light condenser being arranged to face each other across the sample, and measures a thermal diffusivity based on a periodic temperature change of the sample, and an infrared fiber that guides infrared light condensed by the infrared light condenser up to a radiation thermometer; and a controller that measures a phase difference θ between a period of a temperature change of the radiation thermometer and a period of the heating laser beams, and calculates a thermal diffusivity based on the phase difference θ and the frequency f. | 02-04-2016 |
20160033432 | SKIN TOUCH TEMPERATURE TEST APPARATUS AND METHOD - A method for simulating an effect of surface temperature of an electronic device on skin of a human being when the electronic device is touched by the human being. The method comprises applying heat to a material within a cavity of a body, the body comprising a first end, a second end, an outer surface, and an inner surface that defines the cavity extending between the first end and the second end. The outer surface and the material have heat and thermal conductivity properties similar to human skin. The method comprises sensing a temperature of the material, and sensing a temperature of at least a portion of the outer surface when the portion of the outer surface contacts the electronic device. | 02-04-2016 |
20160061755 | SYSTEM FOR A PAVER FOR DETERMINING A COOLING BEHAVIOR - A system comprising a temperature measurement device for repeatedly detecting temperature values of a pavement laid by a paver. The system is configured for ascertaining a temperature value for a specific measuring point at at least two different moments in time by means of the temperature measurement device, the specific measuring point lying in an area of the laid pavement. The system additionally comprises an evaluation unit, the evaluation unit being configured for determining a cooling behavior of the laid pavement. This is done by making use of the at least two different temperature values that have been detected for the specific measuring point at the at least two different moments in time. | 03-03-2016 |
20160252472 | ANALYTICAL DEVICE AND AUTOSAMPLER USED IN THE SAME | 09-01-2016 |
374044000 | Thermal conductivity | 52 |
20080205478 | UREA SENSOR - A urea sensor includes a detecting portion which, in use, is immersed in a liquid accommodated in a urea solution tank for detecting the thermal conductivity of the liquid to detect whether the liquid accommodated in the urea solution tank is an aqueous urea solution; and an enclosing member enclosing a periphery of the detecting portion and including one or more vents penetrating the enclosing member. At least one of the vents is a lower vent being of a configuration and size such that a first hypothetical circle having a diameter of not less than 3.5 mm can be wholly contained within the lower vent. At least a portion of the lower vent is positioned below the detecting portion when the urea sensor is positioned for installation in the urea solution tank. | 08-28-2008 |
20080253427 | Sensor Apparatus Systems, Devices and Methods - A sensor apparatus and sensor apparatus system for use in conjunction with a cassette, including a disposable or replaceable cassette. In some embodiments, the cassette includes a thermal well for permitting the sensing of various properties of a subject media. The thermal well includes a hollow housing of a thermally conductive material. In other embodiments, the cassette includes sensor leads for sensing of various properties of a subject media. The thermal well has an inner surface shaped so as to form a mating relationship with a sensing probe. The mating thermally couples the inner surface with a sensing probe. In some embodiments, the thermal well is located on a disposable portion and the sensing probe on a reusable portion. | 10-16-2008 |
20080310477 | Filled hotwire elements and sensors for thermal conductivity detectors - Hotwire elements for thermal conductivity detectors, consisting of one or two individual nickel filaments with more than 200 ohm resistance at 20° C. and finer than 5 micrometers coating of polytetrafluoroethylene, wound with homogeneously distributed interspaces into a filled up to at most ⅔ of its volume gas-permeable spherical or cylindrical body. Relevant hotwire sensors for thermal conductivity detectors, each comprising a wound on a holder filled element enveloped by fixed fillers forming a symmetric to it built-in cavity with a gas inlet and an outlet surrounding the element holder. Radii of the filled elements and their cavities are in proportion, at which minimum electric current is needed for heating the elements to desired temperature. | 12-18-2008 |
20090086790 | Arrangement with an assembly and a mounting rack - The invention relates to an arrangement with a mounting rack and at least one assembly provided with a housing encapsulation and mounted on the mounting rack, wherein the mounting rack and the assembly have contacting means which are thermally connected to each other. Suitable measures are provided with which the quality of the heat dissipation is identified at the correct time. | 04-02-2009 |
20090161721 | METHOD FOR TESTING A HEAT PIPE AND CORRESPONDING TEST DEVICE - The operational reliability of a heat pipe | 06-25-2009 |
20090180513 | DISPOSABLE, PRE-CALIBRATED, PRE-VALIDATED SENSORS FOR USE IN BIO-PROCESSING APPLICATIONS - Disposable, pre-sterilized, and pre-calibrated, pre-validated conductivity sensors are provided. These sensors are designed to store sensor-specific information, such as calibration and production information, in a non-volatile memory chip on the sensor on in a barcode printed on the sensor. The sensors are calibrated using 0.100 molar potassium chloride (KCl) solutions at 25 degrees Celsius. These sensors may be utilize with in-line systems, closed fluid circuits, bioprocessing systems, or systems which require an aseptic environment while avoiding or reducing cleaning procedures and quality assurance variances. | 07-16-2009 |
20100020844 | MONITORING SYSTEM - The use for maintaining good equipment performance for heat transfer equipment which utilises real time heat transfer coefficient measurements to determine the thermal profile between the heat transfer fluid and the process fluid and this is used to maintain a safe operating temperature of the heating/cooling jacket. | 01-28-2010 |
20100034235 | Heat sink testing method - A heat sink testing method for measuring the heat dissipation performance of a heat sink includes the following steps: using at least one fluid supply device to produce an amount of fluid, which has a first temperature and is driven to pass through a heat sink; adjusting an input power to a heat-producing element, so that the heat-producing element produces heat, and the produced heat is transferred to the heat sink to produce heat energy having a second temperature between the heat sink and the heat-producing element; and stopping the adjustment of the input power to the heat-producing element when a preset high limit of the second temperature is reached, and determining the heat dissipation performance of the heat sink according to the input power of the heat-producing element. | 02-11-2010 |
20100061420 | System and Method for Measuring Insulation R-Value - A system and method for measuring the R-value of thermal insulation. The temperature difference between the insulation surface and the surrounding air layer is measured, as is the temperature difference between the air at the outer and inner surface of the insulation. Using these measurements and the resistance value of the surrounding air layer, the R-value of the insulation is calculated. | 03-11-2010 |
20100080260 | METHOD OF DETERMINING THERMOPHYSICAL PROPERTIES OF SOLID BODIES - The invention is related to the methods of solid bodies' thermophysical properties determination, particularly, to the methods of heat conduction and volumetric heat capacity determination. In accordance with the method heating of the reference sample and surface and sequentially located samples of the solid bodies in question is performed using a thermal energy source moving at a constant speed relative to the reference sample and samples-in-question. Excessive temperatures of the reference sample and samples-in-question at the points on the heating line are measured and by the excessive temperatures values the thermophysical properties are determined. Arbitrary shape samples are used and the samples' heat conduction and volumetric heat capacity are determined by solving the inverse-factor heat conduction problem. | 04-01-2010 |
20100128752 | Systems and Methods for Determining Heat Transfer Characteristics - Systems and methods for determining heat transfer characteristics are provided. In this regard, a representative system for determining heat transfer characteristics includes: a stereolithographic model of a component, the model having a surface; and a test article mounted to the surface such that an extension of the test article protrudes from and is thermally insulated from the surface of the model. | 05-27-2010 |
20100150202 | METHOD FOR MEASURING TEMPERATURE OF SEMICONDUCTOR DEVICE AND APPARATUS FOR MEASURING TEMPERATURE OF SEMICONDUCTOR DEVICE - In the temperature measurement method for semiconductor devices, a junction temperature of a SiC GTO is determined by exploiting large temperature dependence of accumulation time ts as turn-OFF characteristic time of the SiC GTO that is a semiconductor switching element. The accumulation time ts is a time duration lasting from rise start time t | 06-17-2010 |
20100158070 | Method for Monitoring the Thermal Coupling of a Measuring Cell - A method for checking the quality of thermal coupling between a measuring cell and a thermostatted element of an analyzer, where the measuring cell can be exchangeably inserted into an analyzer to measure at least one parameter of a sample, and is provided with at least one sensor element in a measuring channel. | 06-24-2010 |
20110002356 | Method and Apparatus for Monitoring Materials - A method and apparatus for monitoring during dynamic processes that determines when effective measurements of thermal effusivity and/or thermal conductivity can be made during a portion of a cycle during a calibration phase, then measures thermal effusivity and/or thermal conductivity during a subsequent dynamic process in dependence upon the time delay value and the measurement duration value until a desired value is obtained. A sensor having a measurement period of between one of two seconds allows monitoring of materials during dynamic processes such as tumbling, blending, mixing, and rocking. For example, measurements can be made until a value indicative of a desired mixture condition is obtained. | 01-06-2011 |
20110122915 | METHOD FOR TESTING HEAT PIPES - A method for testing heat pipes includes the following steps. A plurality of bar-shaped heat pipes having the same size is provided, and the heat pipes are deformed. The deformed heat pipes are placed in a temperature regulator, such that a temperature of the heat pipes is periodically changed between a first temperature and a second temperature. The heat pipes are then taken out of the temperature regulator. One end of each heat pipe is maintained at a third temperature by a thermostatic device, and a heat pipe temperature difference of two opposite ends of the heat pipe is measured. The heat pipes having the heat pipe temperature difference greater than a standard temperature difference in the heat pipes are marked. | 05-26-2011 |
20110286494 | TEMPERATURE SENSOR, MANUFACTURING PROCESS AND CORRESPONDING METHOD OF ASSEMBLY - The invention relates to a temperature sensor comprising: a temperature-sensitive element ( | 11-24-2011 |
20110299563 | DEVICE FOR DETERMINING THERMAL CONDUCTIVITY AND METHODS FOR THE USE THEREOF - The application relates to a device based on the electrothermal method for determining thermal conductivity, which allows the examiniation of various phenomena, with a high level of reliability, through the study of the thermal behaviour of materials. The device is constitated by a sample-carrying cylinder surrounded by a resistance element that creates a radial heat flow in the sample, a cooling system based on a spiral-form heat exchanger incorporated into the thermal device, means for the storage of a fluid and a data-storage device. Furthermore, the present application describes the use of the device in processes for determining the productive potential of the soil (“PPS”) and the examination of the nutritional quality of agro-ecological produce and foods. | 12-08-2011 |
20120207188 | METHOD FOR THE THERMAL CHARACTERIZATION OF A PORTION OF MATERIAL - A method for thermal characterization of a portion of first material of elongate shape on which there is arranged a portion of a second, electrically conductive material of elongate shape, the method including: a) determining characteristic of the portion of second material, b) applying an electric current of angular frequency between ends of the portion of the second material, and measuring the angular frequency harmonic of the electric voltage between these ends for different values of angular frequency, c) calculating coefficient of thermal conductivity of the portion of first material from the values of the harmonic and of the determined characteristic, a width of the portion of the first material being between about 0.9 and 1.1 times the width of the portion of second material, the portion of first material being surrounded by thermal insulation. | 08-16-2012 |
20120213245 | THERMAL DETECTOR, THERMAL DETECTION DEVICE, AND ELECTRONIC INSTRUMENT - A thermal detector includes a substrate, a support member, a spacer member, a thermal detection element, a detection circuit and a wiring part. The spacer member supports the support member over the substrate with a cavity part being formed therebetween. The thermal detection element is supported on the support member. The wiring part connects between the detection circuit and the thermal detection element, and has first through third conductive layer parts and a plurality of plugs. The first conductive layer part includes at least one layer disposed in the substrate. The second conductive layer part includes at least one layer disposed in the spacer member. The third conductive layer part includes at least one layer supported by the support member. The plugs respectively connect adjacent layers of the first conductive layer part, the second conductive layer part and the third conductive layer part, in a thickness direction of the substrate. | 08-23-2012 |
20120294329 | Method and Apparatus for Measuring Thermal Conductivity of Small, Highly Insulating Specimens - A method and apparatus for the measurement of thermal conductivity combines the following capabilities: 1) measurements of very small specimens; 2) measurements of specimens with thermal conductivity on the same order of that as air; and, 3) the ability to use air as a reference material. Care is taken to ensure that the heat flow through the test specimen is essentially one-dimensional. No attempt is made to use heated guards to minimize the flow of heat from the hot plate to the surroundings. Results indicate that since large correction factors must be applied to account for guard imperfections when specimen dimensions are small, simply measuring and correcting for heat from the heater disc that does not flow into the specimen is preferable. | 11-22-2012 |
20130010825 | SENSOR APPARATUS SYSTEMS, DEVICES AND METHODS - A sensor apparatus and sensor apparatus system for use in conjunction with a cassette, including a disposable or replaceable cassette. In some embodiments, the cassette includes a thermal well for permitting the sensing of various properties of a subject media. The thermal well includes a hollow housing of a thermally conductive material. In other embodiments, the cassette includes sensor leads for sensing of various properties of a subject media. The thermal well has an inner surface shaped so as to form a mating relationship with a sensing probe. The mating thermally couples the inner surface with a sensing probe. In some embodiments, the thermal well is located on a disposable portion and the sensing probe on a reusable portion. | 01-10-2013 |
20130121370 | METHOD AND APPARATUS PROVIDING TEMPERATURE UNIFORMITY - A temperature uniformity device controls the temperature and temperature uniformity of an object such as a photovoltaic module undergoing testing. The temperature uniformity device includes a thermal conductivity device and a pliable thermally conductive interface material inserted between the object and the thermal conductivity device. | 05-16-2013 |
20130128916 | Device and Method for Measuring Dynamic Thermal Conductivity of Micro-Structure Fluid - A device and method for measuring dynamic thermal conductivity of micro-structure fluid. The device includes an upper fixing plate ( | 05-23-2013 |
20130136151 | HIGHLY ADAPTIVE THERMAL PROPERTIES MEASUREMENT SYSTEM AND MEASURING METHOD THEREOF - A highly adaptive thermal properties measurement system and measuring method thereof, for measuring various thermal property values of a device under test without actually lighting up the device under test, are disclosed. The measurement system includes a light source unit, a light modulation module, a holding unit, a thermal reflection unit, a thermal signal capture unit, and a control and computation unit. A light field provided from the light source unit is first modulated by the light modulation module for its distribution of intensity, and then illuminates on the device under test such that the device under test is heated in a specific mode so as to simulate a temperature distribution of the device under test in a state of continuous operation. Further, the control and computation unit computes various thermal property values of the device under test based on a top-surface thermal signal and a bottom-surface thermal signal captured by the thermal signal capture unit. | 05-30-2013 |
20130156063 | MATERIAL SCREENING APPARATUS - The present invention relates to a material screening apparatus, and more particularly, to a material screening apparatus that senses temperature change according to the thermal characteristics of the material to be screened so as to extract a thermal characteristic value for the material and determine the type of the material. The material screening apparatus according to an embodiment of the present invention comprises: a plurality of heat generators for variably generating heat; a plurality of temperature sensors attached to the heat generators, respectively, for measuring the changing temperatures of the heat generators; and a controller for controlling the heat generation by the heat generators, performing the calculations of the temperature values measured by the plurality of temperature sensors, and outputting the thermal characteristic value of the material. | 06-20-2013 |
20130223474 | ANALYSIS SYSTEM AND METHOD FOR VISUALIZING HEAT CONDUCTION - Disclosed is an analysis system and method for visualizing heat conduction of a solid state sample. The analysis system includes a sealed jig chamber, a jig, an air tempering unit, and a thermal image camera. The sealed jig chamber includes a chamber door for opening/closing the jig chamber. The jig is removeably mounted in the jig chamber and comprises a heat source in surface contact with a solid state sample to induce the heat conduction of the solid state sample. The air tempering unit supplies hot air into the jig and supplies cool air into the jig chamber. The thermal image camera photographs the heat conduction of the solid state sample to acquire a thermal image or video. | 08-29-2013 |
20130235900 | THERMAL CONDUCTIVITY MEASUREMENT APPARATUS FOR ONE-DIMENSIONAL MATERIAL - A thermal conductivity measurement apparatus for measuring a thermal conductivity of a one-dimensional material includes a substrate, a vacuum chamber receiving the substrate and four spaced electrodes. The one-dimensional material spans across the four spaced electrodes. A middle part of the one-dimensional material, located between the second and third electrodes, is suspended. | 09-12-2013 |
20130301670 | Detecting Thermal Interface Material ('TIM') Between A Heat Sink And An Integrated Circuit - Detecting TIM between a heat sink and an integrated circuit, the heat sink including TIM detection points, each TIM detection point adapted to receive TIM upon installation of the heat sink, each TIM detection point including a TIM detection device configured to be activated upon contact with TIM, including: receiving, upon installation of the heat sink on the integrated circuit and the TIM, TIM in one or more of the TIM detection points; activating, by the TIM in each of the one or more TIM detection points receiving the TIM, a TIM detection device; and determining, by a TIM detection module in dependence upon the activations of the TIM detection devices, sufficiency of the TIM between the heat sink and the integrated circuit. | 11-14-2013 |
20130301671 | Detecting Thermal Interface Material ('TIM') Between A Heat Sink And An Integrated Circuit - Detecting TIM between a heat sink and an integrated circuit, the integrated circuit including TIM detection points adapted to receive TIM upon installation of the heat sink and including a TIM detection device configured to be activated upon contact with TIM, including: receiving, upon installation of the heat sink on the integrated circuit and the TIM, TIM in one or more of the TIM detection points; activating, by the TIM in each of the one or more TIM detection points receiving the TIM, a TIM detection device; determining, by a TIM detection module of the integrated circuit in dependence upon the activations of the TIM detection devices, sufficiency of the TIM; and responsive to determining that the TIM between the heat sink and the integrated circuit is insufficient, controlling, in real-time by the TIM detection module, operation of the integrated circuit to reduce heat generated by the integrated circuit. | 11-14-2013 |
20140010258 | THERMAL CONDUCTIVITY MEASURING DEVICE AND METHOD OF MEASURING THE THERMAL CONDUCTIVITY - The inventive concept relates to a thermal conductivity measuring device and a method of measuring the thermal conductivity. The thermal conductivity measuring device may include a first structure which is connected to one side end of a sample and receives heat from a heat source; a second structure connected to the other side end of the sample; a first stage connected to the first structure while supporting the first structure; a second stage connected to the second structure while supporting the second structure; a connection unit connected between the first stage and the second stage; and a measuring unit measuring temperatures of the first and second structures and the first and second stages. Since the thermal conductivity measuring of the inventive concept correct a temperature change of a stage due to heat transmission emitted from the stage considering a measurement environment, reliability of measurement may be improved. | 01-09-2014 |
20140016664 | METHOD FOR MEASURING THE THERMAL CONDUCTIVITY OF AN ANISOTROPIC THIN MATERIAL - A method for measuring the thermal conductivity along three directions of an anisotropic thin material includes: positioning on the surface of the material a plurality N of sensors able to measure the temperature of the material at N measuring points; generating a heat flux from a heat source positioned on a surface of the material; determining a mapping of the theoretical temperature of the material at the N measuring points of the N sensors along three directions by using a calculator, determining a mapping of the real temperature on the surface of the anisotropic material by measuring the temperature of the material at the N measuring points of N sensors; determining using the calculator the real thermal conductivity of the thin anisotropic material, along three directions, by a plurality of adjustments of the theoretical thermal conductivity by minimising the difference between the theoretical temperature and the real temperature for each of the N temperature measuring points. | 01-16-2014 |
20140056326 | METHOD FOR DETERMINING THE THERMAL CONDUCTIVITY OF AN IMPREGNATED POROUS MEDIUM - This invention relates to methods for determination of thermophysical properties of porous media filled with fluid, gas, or other mineral medium, and can be used, in particular, in the oil and gas industry. When implementing the method, it is necessary to initially determine a composition of a saturated porous medium and thermal conductivity coefficients of its components. A three-dimensional image of a sample of the porous medium is obtained by X-ray scanning. A thermal conductivity coefficient of the medium is determined by solving thermal conductivity problems, based on decomposition of a computational domain followed by composition. | 02-27-2014 |
20140079091 | HEAT FLUX SENSOR WITH INCREASED RESOLUTION - A heat flux sensor comprising at least one support, where at least one membrane is suspended relative to the support by at least four nanowires, where the membrane is made from at least one current-conducting material, and where the nanowires are made from a current-conducting material, with two nanowires connected to a current source to polarise the membrane between two terminals and a heater for heating the membrane, and where two nanowires are connected to a voltmeter to form measure the voltage at the terminals of the membrane. | 03-20-2014 |
20140105241 | EXACT SOLUTION FOR TEMPERATURE GRADIENT BIFURCATION IN POROUS MEDIA - A method and system for analyzing temperature gradient bifurcation in a porous medium by studying the convective heat transfer process within a channel filled with a porous medium with internal heat generation is disclosed. A LTNE model can be employed to represent the energy transport within a porous medium. Exact solutions can be derived for both fluid and solid temperature distributions for two primary approaches for the constant wall heat flux boundary condition. The Nusselt number for the fluid at the channel wall is also obtained. The effects of pertinent parameters such as fluid and solid internal heat generations, Biot number, and a fluid-to-solid effective thermal conductivity ratio can be determined. It can be shown that internal heat generation in a solid phase is significant for heat transfer characteristics. | 04-17-2014 |
20140119401 | Geothermal Heating and/or Cooling System Grout Testing - A subterranean grouting method comprising (a) placing a sample of a grout mixture within a test container, (b) separating a sand component from the sample, (c) determining if the grout mixture exhibits a thermal conductivity within a predetermined thermal conductivity threshold based upon a proportion of the sand component within the sample, and (d) upon determining that the grout mixture exhibits a thermal conductivity with the predetermined thermal conductivity range, securing a conduit within a subterranean bore with the grout mixture, wherein (a), (b), (c), and (d) are carried out proximate each other at a job site. | 05-01-2014 |
20140294039 | METHODS AND AN APPARATUS FOR HETEROGENEITY CHARACTERIZATION AND DETERMINATION OF THERMAL CONDUCTIVITY OF MATERIALS - The methods of heterogeneity characterization and determination of thermal conductivity of materials provides for heating a surface of the heterogeneous solid samples during the movement of the samples relative to a heating source and a temperature recording unit. Prior to the measurements the measurement parameters are adjusted so as to provide the best spatial resolution and a required uncertainty of the measurements. Distributions of initial temperature on the surface of the samples before and after heating are measured and heterogeneity of the samples is estimated on the basis of the temperature change along the line of the temperature recording unit movement. Thermal conductivity of homogeneous regions of the samples is determined using solution of the coefficient inversed problem with the measured temperatures. | 10-02-2014 |
20140301424 | METHOD AND APPARATUS FOR MEASURING THERMAL CONDUCTIVITY - A method for measuring thermal conductivity of a material contains the now described steps. A heat pulse is applied to a front side of the material. The resulting time-dependent two-dimensional temperature field of the front side of the material is detected using an infrared detector. An isotherm is identified in the temperature field. First and second thermal conductivities of the material in first and second directions of the material are calculated on the basis of the shape of the isotherm and on the basis of first and second temperatures detected at one point of the front side of the material at two points in time. | 10-09-2014 |
20140334516 | ROTATABLE TEMPERATURE SENSING DEVICE - A rotatable temperature sensing device. In one example, a temperature sensing device includes a first end. The temperature sensing device also includes a second end. The temperature sensing device includes a shaft coupling the first end and the second end. The shaft is configured to rotate the first and second ends together during operation. The temperature sensing device also includes a temperature sensor disposed in the first end and configured to communicatively connect to an external device, wherein the temperature sensor is configured to provide an indication of a temperature of the workpiece. | 11-13-2014 |
20140334517 | TEMPERATURE SENSOR BELT - A temperature sensor belt includes at least one temperature sensor. The at least one temperature sensor is configured to provide an indication representative of a temperature of a workpiece. The temperature sensor belt also includes a support material disposed over the at least one temperature sensor. The support material is configured to support the at least one temperature sensor on the sensor belt. The temperature sensor belt also includes an insulative material at least partially surrounding the at least one temperature sensor. The insulative material is configured to thermally insulate the at least one temperature sensor. | 11-13-2014 |
20140355645 | METHOD AND APPARATUS FOR MEASURING SEDIMENTATION OF SOLID-LIQUID TWO-PHASE MIXTURE - A method and an apparatus for measuring sedimentation of a solid-liquid two-phase mixture are provided. A standard work curve and/or standard mathematical model, indicating a relationship between thermal conductivity (k) and concentration (φ) (and/or density (ρ)), are provided for measuring sedimentation of the solid-liquid two-phase mixture. To measure the sediment, thermal conductivities (k) are measured at settling times (t) to obtain a relationship (k−t). Concentrations (φ) and/or densities (ρ) are then determined, based on the measured relationship (k−t) and the standard work curve and/or the standard mathematical model. A sedimentation rate is determined according to a variation rate of the thermal conductivity. A sedimentation status, sedimentation degree, and/or complete sedimentation degree are determined according to variation rate and variation degree of the thermal conductivity (k), the concentration (φ) and/or the density (ρ) of the solid-liquid two-phase mixture to be measured. | 12-04-2014 |
20140369378 | METHOD AND APPARATUS FOR TESTING PERFORMANCE OF THERMAL BARRIER COATING LAYER - A method and an apparatus for testing thermal performance of a coating layer are provided. The method for testing thermal performance of a coating layer involves obtaining a first thermal gradient by exposing one side of a metal base test piece to heat and exposing another side of the metal base test piece to a cooling air; obtaining a second thermal gradient by exposing a coating layer side of a coating layer test piece to heat and exposing an opposite side to a cooling air; calculating an exterior temperature T | 12-18-2014 |
20140369379 | Method and Apparatus for Monitoring Materials - A method and apparatus for monitoring during dynamic processes that determines when effective measurements of thermal effusivity and/or thermal conductivity can be made during a portion of a cycle during a calibration phase, then measures thermal effusivity and/or thermal conductivity during a subsequent dynamic process in dependence upon the time delay value and the measurement duration value until a desired value is obtained. A sensor having a measurement period of between one to two seconds allows monitoring of materials during dynamic processes such as tumbling, blending, mixing, and rocking. For example, measurements can be made until a value indicative of a desired mixture condition is obtained. | 12-18-2014 |
20150049784 | Method for Determining The Pore-Volume and Thermal-Conductivity Characteristics of A Matrix of Porous Materials - A porous sample is alternately saturated with at least two saturating fluids with known different thermal conductivities. As at least one saturating fluid a mixture of at least two fluids is used with known and different thermal conductivities. After each saturation thermal conductivity of the saturated sample is measured, and pore space characteristics and matrix thermal conductivity are determined based on the results of thermal conductivity measurements. | 02-19-2015 |
20150055676 | METHOD AND APPARATUS FOR DETERMINING THERMAL CONDUCTIVITY AND THERMAL DIFFUSIVITY OF A HETEROGENEOUS MATERIAL - Surface of a sample of a heterogeneous material and of samples with known thermal conductivity and thermal diffusivity is heated by a heating spot created by a heater and moving along the surfaces of all samples to determine thermal conductivity and thermal diffusivity of the heterogeneous material. Temperatures of heated surface of all samples are registered by three temperature sensors. Return of the heater and the sensors to the initial position is used for scanning with additional measurements of the sample thermal conductivity for a layer of the sample with depth and width different from those of a layer where thermal conductivity is measured during the forward direction. | 02-26-2015 |
20150092812 | APPARATUS AND METHOD FOR MEASURING THERMOELECTRIC DEVICE - Provided is an apparatus for measuring a thermoelectric device. The apparatus includes a high temperature heater controlling a temperature of a first side of a sample, a low temperature heater controlling a temperature of a second side of the sample, a fine control heater controlling the temperature of the first side of the sample by a smaller unit than the high temperature heater, a temperature control and voltage measuring unit controlling the high temperature heater, the low temperature heater, and the fine control heater and measuring voltages of the first and second sides of the sample, and a thermal conductivity measuring unit measuring thermal conductivity of the sample by using a high temperature output voltage generated in the first side of the sample and a low temperature output voltage generated in the second side of the sample. | 04-02-2015 |
20160011130 | APPARATUS AND METHOD FOR MEASURING OVERALL HEAT TRANSFER COEFFICIENT | 01-14-2016 |
20160011131 | THERMAL CONDUCTIVITY MEASURING DEVICE | 01-14-2016 |
20160011132 | THERMAL CONDUCTIVITY MEASURING DEVICE AND METHOD OF MEASURING THE THERMAL CONDUCTIVITY | 01-14-2016 |
20160123912 | Method For Evaluating Arc-Resistance Performance And Arc-Resistance Performance Evaluation Device - An arc-resistance performance evaluation device includes a plasma generator that generates plasma; and a stand on which a sheet-like test piece is placed so that the plasma generated in the plasma generator is irradiated on a front surface of said test piece, the stand includes a temperature measurement device that measures a temperature on a back surface of said test piece. | 05-05-2016 |
20160131606 | METHOD FOR AT LEAST QUALITATIVELY DETERMINING AT LEAST ONE PHYSICAL AND/OR CHEMICAL CHARACTERISTIC OF A LAMINATE PANEL - The invention relates to a method for at least qualitatively determining at least one physical and/or chemical characteristic of a laminate panel ( | 05-12-2016 |
20160161420 | Multi-Functional Precious Stone Testing Apparatus and Method Thereof - A multi-functional precious stone testing apparatus includes a microcontroller, a measuring unit for measuring properties of the testing object, and a functional unit. The measuring unit is arranged to measure one of a combination of ultraviolet and infrared distributions of the testing object and a combination of thermal and electrical conductivities of the testing object. The microcontroller analyzes a result from the measuring unit to generate a test result of the testing object, wherein the microcontroller includes a communication unit for connecting with an electronic device to transmit the test result thereto. The functional unit includes a voice indicator that generates a voice indication signal of the test result. | 06-09-2016 |
20160202196 | THERMOPHYSICAL PROPERTY MEASUREMENT METHOD AND THERMOPHYSICAL PROPERTY MEASUREMENT APPARATUS | 07-14-2016 |