This invention provides methods for determining photosensitive properties of product materials by exposing the product materials to controlled light exposures and measuring for changes in the product materials to quantify light sensitivity.

A self-contained shelter environment which permits the testing of air conditioning systems at temperatures below the manufacturer's recommended operating range for the compressor thereof.

Accelerated outdoor exposure test equipment is disclosed. In the accelerated outdoor exposure test equipment, a specimen is moved for an accelerated outdoor test or an artificial radiation source to irradiate artificial light is moved at sunrise or sunset. Accordingly, the specimen is exposed to natural light such as sunlight during daytime and exposed to artificial light during nighttime.

A degradation predicting method is a degradation predicting method for predicting degradation of a reinforced concrete structure buried in the ground, the method including: a condensation occurrence condition evaluating step (S1) of evaluating a condensation occurrence condition on which condensation occurs on reinforcing steel; a condensation time calculating step (S2) of calculating a condensation time that is a total time in which condensation occurs on the reinforcing steel based on the condensation occurrence condition for each of a plurality of the reinforced concrete structures; a threshold determining step (S3) of determining a threshold of underground depth at which the reinforced concrete structure is less prone to degradation based on a relationship between the condensation time and a underground depth of the reinforced concrete structure; and a degradation predicting step (S4) of predicting degradation of a prediction-target reinforced concrete structure based on the threshold.

A testing device for simulating frictional wear behaviors of threaded joints of a drill pipe under turbid seafloor environment, including a support, an oil cylinder, upper and lower specimens, a first motor, several second motors, stirring rods, a turbidity sensor, and a test tank. The oil cylinder and test tank are arranged on the support. A piston rod of the oil cylinder is connected to the first motor. A rotating-speed sensor is arranged on a bottom surface of the first motor, facing toward an output shaft of the first motor. The output shaft of the first motor is connected to an upper end of a torque limiter. A lower end of the upper specimen fits an upper end of the lower specimen under loading of a main shaft of the first motor. The stirring rods are provided at two sides of the test tank.

The material degradation monitoring system includes a base plate; a test chamber located on the base plate; a material holding unit located on the base plate and spaced apart from the test chamber, the material holding unit being capable of holding at least one material to be tested; a material transfer unit located proximate to the material holding unit and test chamber; and a controller that directs the transfer unit to move the material holding unit to the test chamber.

A material compatibility test design system and method, allowing for the testing of characteristics of behavior of materials in extreme environments, the method including concurrently exposing a test specimen to a first environment and a second environment, the test specimen having an outside surface and an inside surface, the inside surface defining an internal volume, includes exposing the outside surface of the test specimen to the first environment for a predetermined period of time, the first environment comprising a first temperature, a first pressure and a first composition. The method further includes exposing the inside surface of the test specimen to the second environment for a second predetermined period of time, the second environment comprising a second temperature, a second pressure and a second composition.

A chip testing system includes a central control device, a chip mounting apparatus, a plurality of environment control apparatus, a classification apparatus, and a transferring apparatus. The central control device is configured to control the chip mounting apparatus to dispose a plurality of chips onto a chip testing device. Each of the environment control apparatus includes a plurality of accommodating chambers that are independent from each other. Each of the accommodating chambers is provided with a temperature adjusting device. The central control device is configured to control the transferring apparatus to place the chip testing device into one of the accommodating chambers. When the chip testing device carrying the chips is arranged in the corresponding accommodating chamber, the central control device is configured to control an operation of the corresponding temperature adjusting device, so that the chips are in an environment of a predetermined temperature.

A device (1; 2; 3; 4; 5) is provided for carrying out an integrity test on a sample of disposable components. The device has a medium chamber (10) with an inner chamber (11) that is bounded to the outside, for the purpose of receiving a culture medium. The device also has a sample holder (20) in which the sample (100) can be arranged in such a way that the sample (100) at least partially bounds the medium chamber (10) to the outside. The medium chamber (10) has a vent line (19) that is arranged on a side of the medium chamber (10) facing away from the sample holder (20).

An apparatus to simulate biocide performance in crude oil pipeline conditions is disclosed. The apparatus includes: a reactor to simulate a two-phase crude oil pipeline which includes a crude oil phase above a water phase. The reactor has an agitator to control a flow of the water phase in the reactor in response to a motor that drives an agitation rate of the agitator. A crude oil inlet supplies crude oil to the reactor for the crude oil phase. A water inlet supplies water to the reactor for the water phase. A control circuit is configured by code to control a proportion of the water to the crude oil supplied to the reactor and to control the motor to drive a desired agitation rate of the agitator. A biocide inlet supplies biocide to the reactor. A water sample outlet enables sampling of the water phase of the reactor.