Abstract: A leak test method includes: reducing first pressure in an inspection space in a work and second pressure in a space in a master chamber; humidifying the inspection space in the work; and detecting a change in differential pressure between the inspection space in the work and the space in the master chamber, while the inspection space in the work is in a water-vapor saturated state. Also, in this leak test method, a leak in the inspection space in the work is detected from the change in the differential pressure.
Abstract: For the purpose of determining a weight concentration of a clay material in a porous medium sample, a specific active surface area of the clay material and an initial specific active surface area of the porous sample are measured. A water solution of the clay material is pumped through the sample and a specific active surface area of the sample of the porous medium is measured after the pumping. Then, the weight concentration of the clay material is calculated.
Abstract: A mist-containing gas analysis device comprises a measuring instrument that measures a pressure, a temperature, a flow rate and water content of a combustion exhaust gas, a collection container, a sampling tube and a guide tube through which the combustion exhaust gas is suctioned by a suction blower, and is sampled and fed into a collection liquid in the collection container, an arithmetic and control device that controls the suction blower such that a suction velocity of the combustion exhaust gas being suctioned by the suction blower is within a predetermined ratio with respect to a combustion exhaust gas flow velocity which is calculated based on the measured values, liquid aliquot taking means for taking an aliquot of the liquid in the collection container, and a measuring device that measures a concentration of the measurement-target substance in the aliquot of the liquid taken by the liquid aliquot taking means.
Abstract: Various methods and systems are provided to control a probe moving towards fluid held in a container. The probe is moved towards the fluid to take a sample of the fluid in the container. To take a sample, probe is actuated to hit the fluid surface and to pass the fluid surface by a predetermined distance. Capacitive sensing which incorporates the probe itself is used to support an approach engine for controlling the motion of the probe. The approach engine determines the speed of the probe based on capacitance measurements, and in some cases based on position information of the probe. The approach engine ensures the probe hits the surface of the fluid in the container in order to take a sample while ensuring the probe does not hit the bottom of the container.
Type:
Grant
Filed:
January 28, 2014
Date of Patent:
May 24, 2016
Assignee:
Analog Devices GmbH
Inventors:
James E. Scarlett, Thomas G. O'Dwyer, Christopher W. Hyde
Abstract: An apparatus and method tests the strength of a bond between a substrate, especially a vehicle window, and an item bonded thereto. The apparatus includes a force transfer shaft having a first end extending from a housing and a second end positioned within the housing, a ferromagnetic member connected to the end of the force transfer shaft positioned within the housing, and a permanent magnet having a predetermined pull force secured to the housing proximate the ferromagnetic member.