Abstract: A method for connecting a force sensor to a circuit board is disclosed. A circuit board having first and second conductive leads located on the same surface of the circuit board is provided. Also provided is a force sensor with a first flexible contact tab having a first contact pad and a second flexible contact tab having a second contact pad. The first contact pad is arranged to face the first conductive lead. A first conductive rubber element establishes an electrical connection between the first contact pad and the first conductive lead, and the second contact pad and the second conductive lead are arranged to face in the same direction. A second conductive rubber element establishes an electrical connection between the second contact pad and the second conductive lead. Also disclosed are an associated device for determining fluid pressure in an insulin pump and an insulin pump.

Abstract: The invention provides a test device and method for controlling a low-temperature environment. A double-layer stainless steel plate forms an interlayer cavity of a cooling box; four walls of the cooling box are provided with a heat insulation plate; a probe thermometer is disposed on a side wall of the cooling box; both the top of a press and the bottom of an indenter of a universal testing machine are provided with a fiberglass reinforced plastic pipe cover; the cooling box is disposed on the press; the indenter is disposed in the cooling box through a through hole; a cold bath device communicate with the cooling box; the cold bath device and the interlayer cavity are provided with a freezing liquid; a stress-strain data acquisition instrument is connected to a sample in the cooling box through a strain gage and a strain gage connection line.

Abstract: The invention relates to various means for implementing a method for compensating measured values in capacitive pressure measuring cells using a measuring capacity and at least one reference capacity, comprising the following steps: determination of a pressure-induced capacitance change of the reference capacitance as a function of a pressure-induced capacitance change of the measuring capacitance, determination of a thermal shock-induced capacitance change of the reference capacitance as a function of a thermal shock-induced capacitance change of the measuring capacitance, measurement of the measuring capacitance and of the at least one reference capacitance, determination of the thermal shock-induced capacitance change of the measuring capacitance from a combination of the above dependencies, compensation of the measured measuring capacitance by the thermal shock induced capacitance change of the measuring capacitance, and determination and output of the pressure-induced capacitance change or a quantity

Abstract: A method of assessing damage to a composite member requires the formation of a composite member comprising at least one cavity. A first pressure differential is then established between the cavity and the surrounding ambient pressure. The rate of change of the pressure differential over a first predetermined period is monitored and then the pressure differential is allowed to subside. The result of the monitoring step is stored as a reference value, so that after the composite member is damaged, or after it has been in service for a predetermined time, the test can be repeated and compared with the reference value. If the result of the repeated monitoring differs from the reference value by more than a predetermined amount, it is determined that the composite member is defective.

Abstract: A testing equipment of dynamic penetration plate anchor for a hypergravity centrifuge includes five parts: a test model box, a magnetic induction positioning system, an anchor release device, a loading and measuring device and a dynamic penetration plate anchor. A test foundation is disposed in the test model box, the top part of the test model box along a lengthwise direction is provided with a slide rail of model box, the anchor release device and the loading and measuring device are installed on the slide rail of model box, and the magnetic induction positioning system is installed on the anchor plate of the dynamic penetration plate anchor and the test model box. It can solve the problem that movement information of the anchor body is difficult to obtain due to opaque soil, and can accurately and effectively carry out tests of dynamic penetration plate anchors of hypergravity centrifuges.

Abstract: Provided are a gas sensor, a gas detection device, a gas detection method and a device provided with the gas detection device, capable of improving gas detection performance. The gas detection device is provided with a gas sensor comprising a thermosensitive resistance element and a porous gas molecule adsorptive material thermally bonded to the thermosensitive resistance element that releases specified gas molecules due to heating and cooling, and a power supply control unit that heats and cools the thermosensitive resistance element by controlling the supply of power thereto. The gas detection method comprises a heating step for putting the porous gas molecule adsorptive material in a heated state and a detecting step for detecting a specific gas due to the temperature change in the thermosensitive resistance element by heating.

Abstract: [Object] To provide a torque sensor and power control actuator that are reduced in size and are capable of detecting torque with high accuracy. [Solution] The torque sensor includes: a first rotating body capable of making axial rotation about an input axis; a second rotating body capable of making axial rotation about an output axis; a strain generation part provided between the first rotating body and the second rotating body, having a first surface facing one side in a first direction parallel to the input axis and a second surface facing the other side in the first direction, and configured to transfer rotation torque while generating a strain between the first rotating body and the second rotating body; and a plurality of strain detection parts provided on the first surface and the second surface, respectively, to detect a strain of the strain generation part.

Abstract: An actuating and sensing module is provided. The actuating and sensing module includes at least one sensor, at least one actuating device and a power storage member. The sensor is disposed for measuring fluid. The actuating device is disposed proximate to the sensor and is disposed for transporting the fluid. The power storage member is configured as a graphene battery and is disposed for providing power to the at least one sensor and the at least one actuating device for driving the at least one sensor and the at least one actuating device. The actuating device is driven to transport the fluid toward the sensor so as to make the fluid measured by the sensor.

Abstract: A turbidity measurement device for measuring turbidity of a fluid flowing in a flow tube. A first transducer transmits ultrasonic signals through the fluid in the turbidity measurement section so as to provide a first ultrasonic standing wave between the first and second section ends. A receiver transducer receives the ultrasonic scattered response from particles in the fluid flowing through the turbidity measurement section. A control circuit operates the transducers and generates a signal indicative of the turbidity of the fluid in response to signals received from the receiver transducer. Preferably, the device may comprise a second transducer for generating a second ultrasonic standing wave with the same frequency, and further the two transducers may be used to generate a measure of flow rate by means of known ultrasonic techniques. This flow rate may be used in the calculation of a measure of turbidity.

Abstract: A method for testing and extracting paleo-tectonic geostress based on rock core, including: selecting rock cores in different tectonic periods; preparing standard cylindrical samples from the rock cores in a specific orientation; subjecting the samples to an acoustic emission test to test paleo-stresses of multiple tectonic periods and obtain paleo-tectonic stress data sequence; based on a correlation analysis and an Euclidean distance of the stress data sequence, stripping and extracting multi-level Kaiser stress points of the acoustic emission of rock cores from different formations, so as to calculate and evaluate the ground stress of an evaluated formation in an evaluated paleo-tectonic period.

Abstract: A flow meter includes two parts, a flow unit which can be fitted between fluid pipes and a detection unit snapped on the flow unit. The flow unit has a housing which accommodates a measuring chamber in which there is a rotating measuring ball. The detection unit is snapped on the measuring chamber and has a C-shaped housing part. Inside the housing part there is a printed circuit board which is also C-shaped and is present at a distance from the inner wall of the housing part. When the detection unit is snapped on the measuring chamber, the ends of the housing part will be bent outward. As a result of the clearance between the inner wall of the housing part and the printed circuit board and the fact that the housing part is slidable relative to the printed circuit board, the printed circuit board is not bent.

Abstract: An emission-based detector for use in conjunction with capillary chromatography or other applications involving a gas sample having a small volume is provided. The detector is based on optical emission from a plasma medium. An optical cartridge or other detection and/or processing means may be provided to receive and analyse the emitted radiation and thereby obtain information on the gas to be analysed. The emission-based detector includes a gas inlet, a gas outlet and a capillary channel which is in fluid communication with the gas inlet and gas outlet. The capillary channel acts as the plasma chamber. Preferably, the capillary channel has transversal dimensions of the same order as the cross-section of typical chromatography capillary columns and defines a winding path within the detection area. A multi-cell emission-based detector and a method of analysing a gas sample using multiple detection cells are also provided.

Abstract: Deformation of a surface, such as a pavement surface is measured using a rolling weight or wheel carrying one or more accelerometers positioned to measure the deformation occurring at a point on or near the perimeter of the wheel. The weight is rolled over the surface to be measured. The signals developed by the one or more accelerometers during a stationary cycloidal period of the point on the perimeter of the wheel are analysed to provide a measure of surface deformation based on the one or more signals.

Abstract: An apparatus is provided for providing access to one or more axial proximity probes for monitoring axial position of thrust collars of a pump shaft to enable improved adjustment of the axial proximity probes by the pump operator. The apparatus includes a plurality of side walls configured to surround one or more axial proximity probes configured to measure axial position of one or more thrust collars in a pump bearing housing, at least one access window formed through at least one side wall of the apparatus configured to provide access the one or more axial proximity probes and at least one removable access plate configured to cover the at least one access window.

Abstract: An alignment tool has a body with a top cavity. The top cavity is open on a top side and configured to receive the dispenser housing of a dispenser or a sampling medium head of a sampling medium on which to place the dispenser housing. The sampling medium head has a sample collection area. The body has a bottom cavity configured to receive a hammer arm. The body has one or more sampling media cavities disposed between the top cavity and the bottom cavity, each configured to receive another sampling medium having a respective sample collection area. A barrier is disposed between the bottom cavity and other cavities including the top cavity and the one or more sampling media cavities. The top cavity and the one or more sampling media cavities are in communication with each other via a common slot extending from the top cavity to the barrier.

Abstract: A main controller 201 of a main substrate 20 performs serial communications with a sub controller 214 of each flowrate control substrate 21. The flowrate of the carrier gas is controlled with the flowrate control circuit 213 under the control performed by each sub controller 214. Thus, the main controller 201 only needs to execute the processing of performing the serial communications with each sub controller 214. As a result, the processing executed by the main controller 201 can be reduced, and the processing executed by the main controller 201 is less likely to overwhelm its processing capability even when the number of flowrate control substrates 21 is increased. In addition, a signal line 40 between the main controller 201 and each sub controller 214 can be made long. Thus, the distance between the main substrate 20 and each of the flowrate control substrates 21 can be made long.

Abstract: The present invention relates to a tri-axial mechanical test apparatus and method for simulating the process of freezing the high-pressure water into ice. The tri-axial mechanical test apparatus comprises a main body loading system, a freezing system, and a sample test system; in the main body loading system, a flange, an axial pressure piston and a pressure-bearing shell are constituted to a loading main body, and the axial pressure and confining pressure are controlled directly by a tri-axial servo tester and indirectly by an oil-water separator respectively; in the freezing system, a circumferential freezing liquid circulation channel and a base freezing liquid circulation channel are connected to an external cold source for cooling and freezing, and a dissoluble shell is provided on the periphery of the sample to ensure the shape of ice; in the sample test system, a serial of optical fiber sensors in the sample is connected to an optical fiber data collector, to measure temperature and strain.

Abstract: An acoustical non-contact levitation system and method for eliciting the deformation response of biological samples, coupled with the data analysis to yield quantitative measures of established time-dependent viscoelastic material properties. Embodiments allow for measurement to occur in near-real-time by way of a computer. In use, a biological sample is placed in an acoustic levitator, where it is induced to oscillate, such that material properties of the sample can be observed and analyzed by way of a camera and/or photodiode.

Abstract: Disclosed herein are devices for measuring, at one or more time points, one or more properties or changes in properties of a fluid sample. The devices may comprise a chamber defining an internal volume of the device suitable for receiving and retaining the fluid sample; a plurality of layers, the plurality comprising at least a first layer below the chamber, at least a second layer above the chamber, and a substrate layer between the first and second layers, wherein: the substrate layer is linked to at least one suspended element located within the chamber; the suspended element is linked to the substrate layer by at least two compliant structures located within the chamber; and the suspended element is configured to oscillate upon application of an actuating signal to at least one electrically conductive path, which runs across at least two of the compliant structures and the suspended element. Related methods and uses are also disclosed.

Abstract: A system and method for determining leakage in a fluid supply line assembly are provided. The system includes a source of pressurized fluid, a pressurized fluid load, and a fluid supply line coupled to the source and the load. The leak detection system also includes a source isolation valve configured to control a flow of fluid into the fluid supply line from the source, a load isolation valve configured to control a flow of fluid from the fluid supply line to the pressurized fluid load, and a processor communicatively coupled to a memory device. The memory device includes instructions that when executed by the processor, cause the processor to close the load isolation valve and open the source isolation valve to supply pressurized fluid to the fluid supply line, and after a predetermined interval, determine a leakage of pressurized fluid from the fluid supply line.