Abstract: A device for monitoring the service life of a machine-technical installation includes a sensor module and at least a measuring sensor for detecting stresses and expansions from a structural component of the machine-technical installation, a microcontroller, an antenna arrangement and a current source; the sensor module being in bi-directional connection with a data processing unit and having an antenna arrangement integrated therein, the antenna arrangement including a low-frequency antenna by means of which the sensor module is turned on and off and a high-frequency antenna for sending and receiving high frequency signals and wherein the sensor module can transition from an operating mode into a stand-by mode for energy efficiency and is reactivated through a signal from a detector element.

Abstract: A sensor has a plurality of carbon nanotube (CNT)-based conductors operatively positioned on a substrate. The conductors are arranged side-by-side, such as in a substantially parallel relationship to one another. At least one pair of spaced-apart electrodes is coupled to opposing ends of the conductors. A portion of each of the conductors spanning between each pair of electrodes comprises a plurality of carbon nanotubes arranged end-to-end and substantially aligned along an axis. Because a direct correlation exists between the resistance of a carbon nanotube and its strain, changes experienced by the portion of the structure to which the sensor is coupled induce a corresponding change in the electrical properties of the conductors, thereby enabling detection of crack growth in the structure.

Abstract: Methods and apparatus are provided for monitoring an aircraft accessory. The apparatus comprises a processor associated with said aircraft accessory, a transducer coupled to said processor and operable to produce parametric data relating to said aircraft accessory and a memory coupled to said processor having baseline parametric data residing therein, wherein said baseline parametric data comprises the parametric data obtained during an acceptance test procedure. The method comprises installing a transducer configured to produce parametric data relating to said aircraft accessory, coupling said transducer to a processor associated with said aircraft accessory, coupling said processor to a memory associated with said aircraft accessory, recording baseline parametric data relating to said aircraft accessory in said memory during an acceptance test procedure for said aircraft accessory.

Abstract: An apparatus and method for testing components of a joint replacement device in desired articulation relative to one another under a load, include: a first unit or step operable to impart undulating orientations of a first member of the joint replacement device; and a second unit or step operable to locate a second member of the joint replacement device proximate to the first member of the joint replacement device such that an articulation surface of the second member engages an articulation surface of the first member for movement in response to the undulating orientations of the first member, wherein at least one of: (i) the second unit is operable to automatically adjust the location of the second member of the joint replacement device in response to lateral forces exerted by the first member on the second member, and (ii) the apparatus and method include a third unit or step operable to impart rotational displacement to the first member of the joint replacement device such that the articulation surface of

Abstract: A process for measuring snarling properties of a yarn is provided. Firstly a first and a second point of the yarn are held in close proximity, and a portion of the yarn between the two points is of a predetermined length. A predetermined tension force is temporarily exerted to the portion of the yarn, and simultaneously the portion of the yarn is temporarily restricted from twisting when the tension force is exerted. Then the portion of the yarn is released from the tension force such that the portion of the yarn is able to twist freely so as to form snarls thereon. Thereafter, the snarling properties of the yarn are measured by detecting an amount of the snarls thereby formed.

Abstract: The fastening member removing force measuring device according to the present invention includes a holding unit (300) for holding and pressing a fabric (953) around a snap member (921), a restricting unit for restricting the snap member (921), and a tensile force measuring unit for pulling the restricting unit away from the fabric (953) and measuring a tensile force. The holding unit (300) includes a die (420) for mounting thereon the fabric 953, and a fabric presser unit (500) for holding the fabric (953) placed on the die (420) together with the die (420).

Abstract: A panel testing device, and a method of its use, for flexing and measuring mechanical properties of a panel are provided comprising a panel bending assembly operable to engage a panel and impart a bending force on the engaged panel, and a linear actuator having an output shaft coupled to the panel bending assembly, wherein the output shaft is operable to be movable relative to the panel bending assembly continuously at a constant rate of linear motion regardless of the torque force resisting such motion at the panel testing assembly.

Abstract: Instrumentation for monitoring crack growth using a change in electric potential across a starter crack as the crack propagates is disclosed. The instrumentation includes a specimen of a material to be analyzed for crack growth propagation having a surface with a starter crack formed therein, a plurality of current leads to pass electric current through the specimen, a layer of insulating material disposed on each of opposite sides of the crack, a layer of conductive material disposed on each layer of insulating material, where a portion of each layer of conductive material is in electrical contact with the first specimen surface, and a pair of sensing leads, one sensing lead attached to each layer of conductive material. A method for using the instrumentation to monitor crack growth by measuring is also disclosed.

Abstract: A tool is evaluated in response to a member of the tool being moved from a first position to a second position. In this evaluation, a first force is applied to the member. The first force is operable to move the member from the first position to the second position. In addition, a second force is sensed. This second force results from a resistance of the tool to the first force. Furthermore, it is determined whether the second force exceeds a predetermined value.

Abstract: A method and an apparatus for in vitro testing of catamenial tampon-and-applicator systems are disclosed. The apparatus comprises an in vitro receptacle for accepting tampons deployed during the testing procedure. The in vitro receptacle comprises a sleeve with a tampon-deflecting zone, representing an in vivo vaginal channel with a frontal area of a cervix.

Abstract: A rapid throughput method for the preparation, analysis or both of libraries of material samples is provided. According to the method, a plurality of samples is provided. The plurality of samples is then formed into a plurality of films. Thereafter, the plurality of films is plastically deformed. Preferably, the plurality of films is deformed into a configuration appropriate for testing of properties or characteristics of the samples.

Abstract: It is disclosed a method of detecting and quantifying subsurface defects (10) in an article (1) made of high strength non magnetisable materials after the use in a high temperature environment. A crack (8) or gap on a surface (7) of the article (1) is brazed and after the brazing operation the crack (8) or any remaining braze defect or subsurface crack (10) is detected and quantified by means of a multifrequency eddy current system.

Abstract: A tool is evaluated in response to a member of the tool being moved from a first position to a second position. In this evaluation, a first force is applied to the member. The first force is operable to move the member from the first position to the second position. In addition, a second force is sensed. This second force results from a resistance of the tool to the first force. Furthermore, it is determined whether the second force exceeds a predetermined value.

Abstract: An apparatus for determining dynamic mechanical properties of a cement sample. The apparatus includes an isolator located within a cavity defined by a body. The isolator has an attached end that engages the body proximate a narrow end of the cavity. A space between the body and isolator facilitates lateral movement the isolator. A transducer is located in an interior space defined by the isolator. The transducer has an attached end engaging a distal end of the isolator. A space between the isolator and transducer facilitates lateral movement of the transducer distal end. The transducer generates compressional waves and shear waves that travel into the sample. An ultrasonic receiver receives the waves. The waves are separated with filtering. Sample setting time may be determined from propagation time of shear waves through the sample. Compressive strength of the sample is determined by velocity of compressional waves as the sample sets.

Abstract: An apparatus and method for screening combinatorial libraries of materials by measuring the response of individual library members to mechanical perturbations is described. The apparatus generally includes a sample holder for containing the library members, an array of probes for mechanically perturbing individual library members, and an array of sensors for measuring the response of each of the library members to the mechanical perturbations. Library members undergoing screening make up a sample array, and individual library members constitute elements of the sample array that are confined to specific locations on the sample holder. During screening, the apparatus mechanically perturbs individual library members by displacing the sample array (sample holder) and the array of probes. Typically, all of the elements of the sample array are perturbed simultaneously, but the apparatus also can also perturb individual or groups of sample array elements sequentially.

Abstract: A pressure sensor includes an optical waveguide having an optical fiber with a refractive index n1, located in a fiber guide with a refractive index n3, forming an intermediate region. A medium with a refractive index n2 is located in the intermediate region. The refractive indices correspond to the relation n3>n1>n2. When subjected to a pressure, the fiber guide is pressed against the optical fiber such that the condition for the total reflection required for the normal optical waveguidance in the optical waveguide is no longer fulfilled, and attenuation takes place. The attenuation is evaluated in a corresponding control unit. The pressure sensor is especially provided for an anti-pinch device in the motor vehicle industry.

Abstract: A method for calculating a fatigue usage factor of a component in a nuclear reactor includes determining a flow scaling factor for each stress component of a stress cycle, applying the flow scaling factor to rapid cycling stress conditions, and performing a fatique evaluation by calculating a fatigue usage factor using the flow scaling factor. The flow scaling factor is a ratio of a temperature fluctuation ratio at a first reactor operating condition divided by a temperature fluctuation ratio at a second reactor operating condition. The temperature fluctuation ratio is defined as a ratio of the metal temperature range over the fluid temperature range.

Abstract: An interactive voice actuated control system for a testing machine such as a tensile testing machine is described. Voice commands are passed through a user-command predictor and integrated with a graphical user interface control panel to allow hands-free operation. The user-command predictor learns operator command patterns on-line and predicts the most likely next action. It assists less experienced operators by recommending the next command, and it adds robustness to the voice command interpreter by verbally asking the operator to repeat unlikely commanded actions. The voice actuated control system applies to industrial machines whose normal operation is characterized by a nonrandom series of commands.

Abstract: This invention relates to a method for measuring elastic modulus of a sample object. This invention also relates to a method for correcting creep effects in the modulus measurement. The error due to creep in the apparent contact compliance is equal to the ratio of the indenter displacement rate at the end of the load hold to the unloading rate. Determination of this error term and deduction of it from the measured contact compliance can be easily done at a low cost by modifying the data analysis software in any commercial depth-sensing indentation system.

Abstract: A method for screening fabric handle of an array of fabric samples (i.e., a plurality of fabric materials) comprising providing an array of at least two fabric samples, protruding the fabric samples through openings, and monitoring response of said fabric samples to the protrusions.

Abstract: A system and method for non-destructively testing the strength of bonded joints, particularly a bonded joint between two composite components, is provided. The method generally includes activating a source of rapid surface pressure application against a bonded assembly containing the bonded joint to create a shock load. The resulting shock load first generates compression and then tension within the bonded joint, along with surface motions proximate the bonded assembly, and a surface motion detector measures the surface motions to determine the minimum strength of the bonded joint. Accordingly, the surface motions are correlated to the strength of the bonded joint. Further, the magnitude of the impact may be adjusted to vary the amount of tension within the bonded joint to correspond with various load conditions.

Abstract: An instrument mounting system for repeatable field testing of equipment or other test object, comprising a frame and an inner surface defined at least in part by the frame. Exactly three object contact points are disposed upon the inner surface, the three object contact points defining a plane.

Abstract: An unbonded capping system is provided for compression testing of grout samples in the form of rectangular prisms. The capping system comprises first and second retaining cups comprising metal blocks each having opposite parallel planar surfaces. A first of the planar surfaces is engagable by a test platen, in use. A second of the planar surfaces has a rectangular cavity for receiving one end of the grout sample. First and second rectangular compression pads each have a hardness in the range of about 50-70 durometer. The compression pads are of a size slightly smaller than a size of the rectangular cavities to be received therein to distribute a test load from the test platens to the grout sample.

Abstract: An apparatus for orienting tablets on a measuring station includes a horizontal transfer table, two rollers provided in the support plane of the transfer table and arranged parallel side by side, with the upper generators of the rollers being flush with the support surface or projecting slightly beyond it, and a drive device for driving the two rollers in opposite directions so that a test tablet transferred onto the two rollers is automatically oriented according to the axes of the two rollers; and a tablet tester including the apparatus.

Abstract: A part where a creep void is recognized is observed at an arbitrary magnification by a scanning electron microscope, an optical microscope, and a laser microscope, and the maximum value of creep void crystal grain boundary occupancy is measured in the field of view. The maximum value is applied to a a master curve corrected from the results of a test of simulating an actual machine and a test piece of actual machine size, taking account of internal damage of the machine. Thus the creep lifetime consumption rate of a member is estimated easily with high accuracy.

Abstract: A passive SAW strain sensor for remotely sensing strain within a surface has a receiving SAW correlator with a signal input interdigitated transducer and a plurality of adjacent successive spaced interdigitated output transducers on a piezoelectric substrate, and a transmitting SAW correlator having a plurality of adjacent successive spaced interdigitated output transducers and a signal output interdigitated transducer on a piezoelectric substrate. The transmitting SAW correlator is affixed to or embedded in the surface such that its substrate will be stressed when the surface is strained and the receiving SAW correlator is not affixed to or embedded in the surface. The output transducers of the receiving SAW correlator and the transmitting SAW correlator are spatially placed to define a unique frequency of sensitivity, and their outputs are coupled together.

Abstract: A force transducer is inserted into a small boring inside a test object. Inside the boring, it can measure the elastic extensions caused by the surrounding stress matrix. The force transducer is provided in two parts. Both parts are provided with a conical inner boring or conical outer periphery in such a manner that they can be held inside the boring of the test object by a tractive force. In order to span a large tolerance zone, the outer part is axially provided with multiple slits on both sides. The outer part is provided with a polygonal shape and thereby detects the deformations to be measured, not over the entire periphery, but it records theres via the contacts axially oriented through the axial lines. The extension is integrated in a peripheral direction between the contacts and is transferred into the inner part.

Abstract: A method and sheet-like sensor for measuring stress distribution including a grid of members which change in resistance when subjected to strain, the members intersecting at internal nodes and intersecting at boundary nodes at the periphery of the grid defining a plurality of legs. An analyzer is electrically connected only to the boundary nodes and configured to calculate any change in resistance in all of the legs based solely on the measured resistance of the legs between the boundary nodes.

Abstract: A hydrodynamic bearing includes a fiber optic sensor for measuring static and dynamic bearing forces or loads during operation. The fiber optic sensor is positioned within the bearing through the most direct load path, which is through the pad support for a tilting pad style bearing. In additional to being positioned in the pad support of a tilting pad bearing, the sensor is also placed 1) inside the pad support or on the pad support structure, and 2) oriented perpendicularly with the shaft centerlines. After the sensor location is chosen and the sensor is properly positioned, a calibration procedure is utilized to determine the relationship between the radial load and measured strain for the specific bearing. Once the calibration factor has been determined, the sensor may be utilized in the bearing to measure load during operation.

Abstract: A method of testing athletic shoes is provided. The testing subjects athletic shoes to different temperature conditions in one test or different kinetic forces in another test. After undergoing the stressor (temperature, kinetic forces, other) the axial resistance exhibited by the shoe is measured by placing the shoe in the shoe testing device. The device ascertains the amount of torque required to rotate or twist each shoe to a standard amount. These results permits the different models and brands of athletic shoe to be independently categorized and grouped based on their performance with relation to the different stressor placed on the shoe. This would then permit the consumer, health professional and/or consultant to choose an athletic shoe which would assist in correcting pain caused by various degrees of motion in the foot or lower leg. By utilizing the categorizations, along with the needs of the individual, one may select an athletic shoe which can treat the effects of pronation and improper gait.

Abstract: A method for measuring strength of an image forming surface of a planographic printing plate. In this method, an image forming surface of a planographic printing plate is contacted with a non-image forming surface of another planographic printing plate, a weight of predetermined mass is placed thereon, and the planographic printing plates are slid against each other in a direction along the image forming surface. A maximum value of pressure that does not generate damage when applied to the image forming surface of the lower planographic printing plate is used as strength of the image forming surface. By stacking and packaging planographic printing plates having an image forming surface strength of no less than a specified value, damage to the image forming surfaces of the planographic printing plates in a packaged state can be prevented.

Abstract: A method for determining the sensitivity of the fatigue life of a structural component with respect to specific design parameters includes obtaining the stress profile for a structural component under random process establishing a relationship between the stress profile and the fatigue life of the structural component, developing the sensitivity of the fatigue life with respect to design parameters, optimizing the design of the structural component based upon the design parameters to which the fatigue life is most sensitive.

Abstract: A creep testing fixture and method for applying a precise amount of constant tensile stress to a creep test specimen to allow for precise measurement of creep in the test specimen. The fixture includes first and second mounting grips for holding opposite ends of a test specimen. A frame supports the mounting grips for relative reciprocal movement toward and away from each other. A tensile spring is connected between the first and second mounting grips. The frame subjects a test specimen held between the mounting grips to tensile stress in response to axially inward force that the tensile spring applies to the frame.

Abstract: The invention relates to a stand having a parallelogram carrier (2b) and a balancing device, in which, between a support arm (60) that runs substantially horizontally and a basic part (62) that can be braked with respect to a basic body (12), there is arranged at least one measuring unit (64) to measure and absorb the imbalance forces and moments which arise.

Abstract: A test fixture and method for mechanical testing of production samples of semiconductor chips that have been packaged and mounted on a printed circuit board. The sample is isolated and attached to a loading arm using an adhesive. The test fixture includes at least four plates disposed in a spaced-apart relationship along a testing axis. At least six rods are used to maintain this alignment. A first rod set of at least three rods is fixed in a first direction along the testing axis. The first rod set extends parallel to the testing axis through openings formed in a second plate to the third plate, to which the first rod set is fixed in at least a second direction along the testing axis, the second direction being opposite to the first direction. Similarly, a second set of at least three rods are fixed in the first direction to a second plate, extend along the testing axis through openings formed in the third plate, and are fixed in a second direction to the fourth plate.

Abstract: A method for analyzing creep characteristic of a plastic molded substance is provided wherein the creep characteristic can be analyzed of an actual plastic molded substance having various shape and fastening conditions with high precision. The main stress value for each section of the analysis target is read out, hydrostatic stress &sgr;m of each section is calculated from the main stress value, and the stress condition is determined to be tensile stress when &sgr;m is positive and to be compressive stress when &sgr;m is negative. Tensile or compressive characteristic value is assigned based on the stress condition at each section, and creep is calculated for a predetermined time period based on the characteristic value. By employing characteristic values depending on the stress conditions of each section, precision of creep characteristic analysis is greatly enhanced.

Abstract: A sample of normal tissue specimens obtained from a subset of a population of subjects with shared characteristics is profiled in order to generate a plurality of structural indices that correspond to statistically significant representations of characteristics of tissue associated with the population. The structural indices include cell density, matrix density, blood vessel density and layer thickness. Alternatively, the sample of normal tissue specimens obtained from the subset of the population of subjects with shared characteristics can also be profiled in order to generate a plurality of cell function and/or mechanical indices that correspond to statistically significant representations of characteristics of tissue associated with the population. Structural, mechanical and/or cell function indices for a plurality of tissue populations are determined and then stored in a database, and subscribers/users are granted access to all or part of the database based on a subscription fee.

Abstract: Techniques for determining large deformation of layered or graded structures to include effects of body forces such as gravity, electrostatic or electromagnetic forces, and other forces that uniformly distribute over the structures, support forces, and concentrated forces. A real-time stress monitoring system is also disclosed to provide in-situ monitoring of a device based on the large deformation analytical approach. A coherent gradient sensing module, for example, may be included in such a system.

Abstract: A method of determining joint stiffness degradation in structure 10 is provided including a first exciting of the structure 18, a first measuring of transfer function and frequency response function 20, simulating a mileage accumulation process of the structure 16 performed after the first exciting 18 and the first measuring 20, a second exciting of the structure 22, performed after the simulating a mileage accumulation process 16, a second measuring of frequency response function 24 performed after the simulating a mileage accumulation process 16 and calculating the change in joint stiffness 26 using the first measuring 20 and the second measuring 24.

Abstract: A system for measuring the stress imparted on an object having a piezoelectric element electrically coupled to a current integrator. The piezoelectric element has first and second electrodes, and the current integrator is a tube filled with mercury having a first end and a second end. First and second electrical contacts are coupled to the first and second electrodes respectively and are inserted into the first and second ends of the tube. An electrolyte gap is contained inside of the mercury in the tube and the mercury is plated across the electrolyte gap in response to the passing of current from the piezoelectric element through the first and second electrical contacts.

Abstract: A method for testing the stability of vertically braced masts wherein the relevant mast is subjected to the load of a bending force starting from a defined initial value, and increasing to a maximum pre-set testing force above its bracing, the mast thereby being laterally displaced. The load is then removed from the mast and is subjected to a restoring force which reduces to zero. The mast is evaluated in conjunction with the load removal procedure to determine damage to the mast and/or its bracing. The mast is subjected to an additional bending force in the opposite direction of the first bending force, and the load is once again removed from the mast in a second test procedure. A possible remaining displacement of the mast/bracing system is evaluated in conjunction with the highest mast loads to determine the type of possible damage to the mast.

Abstract: The present invention provides a method and apparatus mainly for measuring mechanical properties, electrical properties and transducer properties (e.g., electromechanical coupling constant) of piezoelectrics, wherein three measurement specimens of the same material and the same dimension, each having parallel planes, and two insertion plates of the same material and the same dimension, each having known mechanical properties, are stacked alternately, a load is applied to these measurement specimens and insertion plates via the measurement specimens located on both end sides, the displacements in the direction of application of the load are measured before and after application of the load, and an elastic constant of the measurement specimen is determined based on those displacements, and the measurement of the electromechanical coupling constant is applied to the piezoelectrics by using the same apparatus under short-and-open circuit conditions.

Abstract: A method and device for testing a metal part for weakness to deformation. The device includes a motor that moves a shaft and a load applicator toward and away from a part being tested. The motor is activated in accordance with a predetermined sequence and in dependence upon pressure sensed by a load cell associated with the shaft. In the method, displacement is measured by a displacement measuring device throughout the testing sequence in order to determine the part's resistance to deformation.

Abstract: A load creation apparatus is adapted to create a specified mass intended to be suspended such that a load bearing structure is able to bear the mass. The apparatus includes a liquid impervious container. The container is suspended from he load bearing apparatus by suspension means. The container is able to be filled with liquid to create the test mass. The mass of the container is obtained by means for determining the mass of liquid in the container from the density and volume of the liquid. A method is also provided for testing the ability of a load bearing structure to bear a specified test mass, created by such a load creation apparatus.

Abstract: Force sensing transducers which employ inline sensing and an integral crossarm support for a sensing component. These transducers have a metal frame with at least one ring; a beamlike crossarm which lies within, spans, and is integral with a ring of the transducer frame; and at least one strain sensor mounted, preferably under preload, in an aperture in the innermost (or single) ring.

Abstract: A stress testing apparatus includes a cylinder block 2 with twelve cylinders 4, each housing a piston 14. Hydraulic pressure is provided to each of the cylinders 4 by a common supply bore 6 for urging each piston 14 out of its respective cylinder 4. A stress testing device 16 is mounted over each cylinder 4 and piston 14. For tensile testing (see FIG. 3) of a specimen (X), a piston (14a) acts on the housing (28a) of the device (16a) through pins (26), to push the housing (28a) away from the cylinder block 2. The specimen X is mounted between the housing (28a) and the cylinder block 2. For compressive testing (see FIG. 4), of a specimen Y the housing (28b) is rigidly secured to the cylinder block 2, and the cylinder (14b) acts to compress the specimen Y between the housing (28b) and the cylinder block 2 through a shaft (22b).

Abstract: The latent stress in a material can be measured using critically refracted longitudinal ultrasonic technique. The system uses a frame to hold a hydraulic piston. The piston is used to apply an adjustable force against the probes. A signal is initiated by a first transducer. The signal is angled against the piece under test so as to create a critically refracted wave along the piece. The delay time to receive the wave at a first and second probe is measured. The delay time correlates to a stress in the piece.

Abstract: For acquiring characteristic data of a pack (10), in particular of a cigarette pack, the latter is compressed between a pressure plate (26) and a bearing plate (27). The latter is connected to a load cell (28) in order to determine the applied force as a function of the distance traveled. The characteristic deformation data or change in force at a precise, constant downward movement of the pressure plate (26) yield a reproducible, characteristic image of the pack (10) in question.

Abstract: A system 10 for continuously monitoring the integrity of a structure 14 includes a sensor pad 16 having a surface 18. The surface 18 is provided with a set of first channels 22 and interspersed second channels 24. Surface 18 is sealed onto the surface 12 of structure 14 so that the channels 22, 24 together with surface 12 form respective sets of first and second cavities 26 and 28. The first cavities 26 are placed in fluid communication with a vacuum source 101 via a third channel 30. The second cavities 28 are vented to the atmosphere via a fourth channel 34, through hole 35, and conduit 36. A high impedance 102 is placed in series between the vacuum source 101 and the first cavities 26. A differential pressure transducer 103 is connected across the high impedance 102 and monitors for change in vacuum condition between the vacuum source 101 and the vacuum in the cavities 26.

Abstract: A universal material testing device which includes a frame; an actuator mounted on the frame for controlling a displacement of a sample to be tested; a load cell movably mounted on the frame and adapted to abut against the sample for detecting a force applied thereon by the actuator, the load cell producing a signal corresponding to the force detected; a signal conditioning unit for reducing input noise and for processing of the signal and executing specific tests by coordination of displacement control and load signals received for processing from the load cell; and a detachable chamber with humidifying media for humidification of the sample environment confined within the chamber and separated frm the sample so as to avoid potential damaging effects of humidity on the sample or on the device. The device is useful for determining certain material properties of a sample.