A test device and method for studying influence of external load on soil arching effect of shield tunnel, including a test chamber, a tunnel model and a control module. The tunnel model, including segments which are meshed with each other and can move relatively, the tunnel model is installed in the middle of the test chamber, and all sides of the tunnel model is filled with a test soil, the control module, including a set of deceleration motors and a variable cross-section guide rod, the variable cross-section guide rod is inserted into the tunnel model, which can reduce the diameter of the tunnel model, resulting in ground loss and soil arching effect.

Provided is an apparatus for fatigue testing a bulge tool having a WH-type skeleton, the apparatus including: a fixing bracket having tool holes penetrated through opposite sides thereof; a tool housing coupled to the tool hole of the fixing bracket and having the bulge tool inserted and installed therein; a moving rail installed at one side of the fixing bracket in a lengthwise direction of the tool housing and providing a reciprocating movement path facing the tool housing; a moving bracket reciprocating along the moving rail; a pusher protrudingly installed from the moving bracket toward the tool housing and moving in and out of the bulge tool; a measurement means installed between the pusher and the moving bracket, measuring a load applied to the bulge tool; and a drive means for generating power reciprocating the moving bracket on the moving rail.

A method for inspecting a component made using an additive manufacturing process, the component having an internal conduit, is disclosed. In various embodiments, the method includes the steps of: attaching a fluid-blocking header to the component, the fluid-blocking header having an internal conformal surface configured to mate with an external conformal surface of the component; introducing a plugging media into the internal conduit; activating the fluid-blocking header to freeze the plugging media in a vicinity of the fluid-blocking header; pressurizing the internal conduit of the component; and analyzing a fluid flow characteristic at an outlet of the component to assess an occurrence of a blockage within the internal conduit.

There are disclosed a measuring apparatus and method for measuring the pull-off force of a frangible arrangement connecting a capsule with a tamper evident band of closed annular shape, with an annular ridge that axially retains the tamper evident band, a pusher device that pushes the capsule so as to cause the breakage of the frangible arrangement, a sensor arrangement to detect the tensile force applied by the pusher device, and a lifting and abutting device arranged for supply the capsule to the annular ridge.

There are further disclosed a band disengagement arrangement for disengaging the tamper evident band from the annular ridge after the breakage of the frangible arrangement, yet maintaining intact the closed annular shape of the tamper evident band.

The invention relates to a device for monitoring the lifetime of at least one hydraulic apparatus of an aircraft that is subject to ventilations in hydraulic pressure during flight, comprising an interface for receiving measurement data which are representative of hydraulic pressure (P). The invention is characterised in that the device comprises a processing device, comprising a means for detecting a pressure (P) load (SOLL.sub.END) of a damaging nature, which load is defined by the fact that the pressure (P) comprises a pressure increase (ΔP.sub.AUG) that is greater than a predetermined damage threshold (S.sub.ΔP), followed by a pressure decrease (ΔP.sub.DIM) that is greater than the threshold (S.sub.ΔP), a means for calculating a pressure variation magnitude that is equal to the maximum increase (ΔP.sub.AUG) and the maximum decrease (ΔP.sub.DIM), a means for projecting the magnitude onto a decreasing curve or straight line of a damage model in order to determine the permissible number of loads corresponding to the magnitude, a means for calculating a potential damage ratio that is equal to a number of reference loads divided by the permissible number, a means for increasing a count of accumulated ratios by said ratio.

A monitoring system that monitors at least one component of a cutting edge supported on an implement, the monitoring system comprising a monitor controller; at least one sensor in sensing communication with the at least one component, the at least one sensor configured to monitor wear of the at least one component; wherein the at least one sensor is connected to the monitor controller to communicate a sensor signal indicative of the wear of the at least one component to the monitor controller; the monitor controller including an output, wherein upon receiving a selected signal from the at least one sensor, the monitor controller is configured to communicate an alert via the output.

A test device and method for studying influence of external load on soil arching effect of shield tunnel, including a test chamber, a tunnel model and a control module. The tunnel model, including segments which are meshed with each other and can move relatively, the tunnel model is installed in the middle of the test chamber, and all sides of the tunnel model is filled with a test soil, the control module, including a set of deceleration motors and a variable cross-section guide rod, the variable cross-section guide rod is inserted into the tunnel model, which can reduce the diameter of the tunnel model, resulting in ground loss and soil arching effect.

A method for assessing the release performance of microcapsules comprising at least one volatile ingredient, the method comprising the steps of: a. applying a plurality of said microcapsules to an underlying surface; b. applying a kinetic frictional shear stress τ through a contact surface of a probe under a predefined load, a predefined contact surface area and a predefined shear rate to said plurality of microcapsules; and c. measuring the amount of the at least one volatile ingredient released per second from said microcapsules under said kinetic frictional shear stress τ.

A method of testing a semiconductor device includes forming conductive bumps respectively on a plurality of bonding pads of the semiconductor device. The semiconductor device having the conductive bumps is supported on a substrate stage. A gripper having first and second holders spaced apart from each other is positioned over the conductive bump. The conductive bump is clamped between the first and second holders. The gripper clamping the conductive bump is reciprocated at a constant speed with a predetermined stroke in a horizontal direction parallel with an upper surface of the substrate stage. A reliability of the semiconductor device is determined by measuring a time point at which a crack occurs in an upper wiring connected to the bonding pad.

Disclosed is a pullout force measurement test device based on an anchor group effect of a marine pipeline, and a measurement method. The test device includes a support frame, a winch, a lifting plate, an upper hanging rope, a force measuring mechanism mounted on the upper hanging rope, two anchor plate mechanisms, and two lower hanging ropes, where each pair of the lower hanging ropes and the anchor plate mechanisms are located on both sides of the upper hanging rope; each anchor plate mechanism includes a model box, a soil sample filled in the model box, an anchor plate embedded in the soil sample, and a pulley assembly used for adjusting a pullout angle of the anchor plate; one end of each lower hanging rope is connected to the lifting plate, and the other end thereof is connected to the anchor plate of the corresponding anchor plate mechanism.