A printed circuit arrangement employs a printed circuit board having a corrosion test circuit provided with at least two conductive pads which are located proximate to each other in a measuring area. The arrangement uses a measuring device to identify corrosion on other defects in the circuit board including short circuits and/or line cuts. One pad is an excitation pad, being connected to an excitation signal source, and the other pad is a response pad, whereby the measuring device is connected at least to the response pad.

A printed circuit arrangement employs a printed circuit board having a corrosion test circuit provided with at least two conductive pads which are located proximate to each other in a measuring area. The arrangement uses a measuring device to identify corrosion on other defects in the circuit board including short circuits and/or line cuts. One pad is an excitation pad, being connected to an excitation signal source, and the other pad is a response pad, whereby the measuring device is connected at least to the response pad.

Incoherent millimeter wave, sub-millimeter wave and terahertz test signals are used to probe metal substrates covered by a protective coating or outer layer, such as paint or thermal insulation, obscuring direct assessment of the substrate. The incoherent test signals, provide signal dispersion and angular variation of the test signals with respect to angular incidence to the substrate. Illumination of the substrate permits differentiation between un-corroded and corroded sections of the sample because reflectivity (and emissivity) from a metal-based substrate is heavily dependent on the surface resistivity which is dependent on the corroded state. A detector/camera is arranged to pick up reflections from the substrate and an associated control system identifies regions of the sample that reflect the test signal illumination differently or otherwise indicate a variation from a reference value. The differences therefore signify the presence or lack of corrosion or other abnormalities within or on the substrate.

A corrosion resistance test apparatus is for a coated metal material including a metal base and a surface treatment film, and includes: one or two water-containing material holders to hold a water-containing material in contact with the surface treatment film inside; one or two electrodes in contact with the water-containing material; an external circuit configured to electrically connect between the electrode and the metal base, or between the electrodes; a temperature control element brought into contact with the coated metal material via an insulating portion and configured to control a temperature of at least the coated metal material; a temperature controller configured to control a temperature of the temperature control element; and a current supplier configured to supply a current between the electrode and the metal base, or between the electrodes, as an anode and a cathode, respectively to bring corrosion of the coated metal material to progress.

A high temperature corrosion sensor is provided having (i) a housing having an external wall and an internal wall, the internal wall of the housing forming a chamber of the housing, (ii) a stainless steel tube inserted into the chamber, (iii) a ceramic tube wherein at least a portion of the ceramic tube is inserted into the stainless steel tube, (iv) an airflow tube that extends through the chamber, and (v) a sensor probe having a first working electrode, a second working electrode, a reference electrode, a positive electrical resistance, a negative electrical resistance, and a thermocouple, wherein at least a portion of each are encapsulated into a ceramic casting that is located at one end of the housing. Methods of measuring corrosion within a power plant environment are provided.

A system for performing electrochemical and hydrogen permeation measurements using a test specimen subject to tensile stress comprises a first housing filled with a process fluid supplied via an inlet with hydrogen sulfide, a second housing filled with a basic solution, a test specimen positioned between the first and second housings exposed to the process fluid on one side and to the basic solution on the other, first and second potentiostats coupled to the first and second housings to measure corrosion and induce hydrogen permeation, a loading device adapted to apply a longitudinal strain on the specimen, and a computing device configured to control operation of the potentiostat and loading device. The hydrogen sulfide in the process fluid impedes formation of diatomic hydrogen from atomic hydrogen, allowing adsorbed atomic hydrogen to enter into the steel test specimen from one side and permeate into the other side of the test specimen.

The invention provides a piping wall thinning prediction system, a piping soundness evaluation system, and a method which can evaluate a wall thinning amount, a wall thinning rate, and a remaining life at a high speed based on limited actual measurement results, and identify a location requiring monitoring in a piping in a plant.

The wall thinning prediction system includes: a first AI evaluation unit configured to evaluate a fluid characteristic value of a piping based on an input value including piping shape information and information of a fluid in the piping; and a second AI evaluation unit configured to evaluate an index related to wall thinning of the piping based on an input value including the fluid characteristic value. The wall thinning prediction system is configured to predict the index related to the wall thinning of the piping.

A multilayer temperature control shell for a test chamber to control the temperature within the interior of the test chamber wherein the multilayer temperature control shell comprises an inner temperature generating zone and an outer temperature insulating zone disposed between an interior layer of sealant and an exterior layer of sealant.

Hundreds of thousands of concrete bridges, buildings etc. and hundreds of billions of tons of concrete require characterization throughout the process from manufacture to pouring and curing and on throughout service life. The characterization may relate to initial concrete properties, projected concrete properties, framework removal, corrosion, failure etc. Accordingly, a variety of measurements such as water content, electrical resistivity, and half-cell corrosion potential for example would be beneficially implemented as easy to use field test equipment or embedded sensors allowing lifetime monitoring to be performed rather than discrete assessments when issues become evident.

A method of evaluating railway ties for deterioration is mounted on a moving vehicle along the rails where the presence of the tie is detected and an impact energy source is used to create at least one wave in a surface of the tie which travels longitudinally along the tie. At positions spaced longitudinally from the source, the time of arrival of the wave is detected typically by a series of sensors responsive to air pressure changes to determine a speed of propagation of the wave in the tie and, in the event that the speed in said tie is below a predetermined speed, an output indication is provided regarding the deterioration of the tie, which can include a real time marking of the tie detected.