Salt Spray Test Chambers

July 1st, 2014 by Acmas No comments »

Salt Spray Chambers are used to perform the Salt Spray Test also known as Fog Test. Salt Spray Test is an accelerated environmental corrosion test in which specimens/metals are exposed either continuously or intermittently to a fine mist of salt-water solution used to evaluate the corrosion resistance of paints, coatings, or electrical connections. Test duration depends on the corrosion resistance of the coating; the more corrosion resistant the coating is, the longer the period in testing without showing signs of corrosion. Or the Salt Spray test is a standardized test method used to check corrosion resistance of coated samples. Coating provides corrosion resistance to metallic parts made of steel, zamak or brass.

Conditions required for a salt spray test (These conditions are maintained constantly for the duration of the test).

A 5% by weight salt water solution is atomized by compressed air into a spray (also known as a ‘fog’ or ‘mist’) which is directed into an enclosed test chamber, containing the samples to be tested. The samples are located beneath the atomized salt spray and therefore not directly impinged upon by it.
The salt spray so created ‘falls-out’ on to the samples under test at a rate of 1.0 to 2.0ml/80cm²/hour. Generally, and unless otherwise stated, the pH of this fall-out shall be neutral and controlled to between pH 6.5 to 7.2.
The salt spray atomization is continuous for the duration of the test. The test duration varies according to the type of test sample and its intended application, but is generally given in multiples of 24 hours.
Generally, and unless otherwise stated, the test chamber temperature shall be controlled at 35 degree C, and the humidity shall be maintained at 95-100% Relative Humidity.

Advantages of Salt Spray Test

Short test duration; the test duration is short compared to the natural environment, the cost is limited and a standardized material is required.
Can examine big samples; in the salt spray test it is possible to examine quite big samples, depending on the size of the salt spray chamber. Some chambers are too big in sizes that even allow the testing of a vehicle.
Simple to perform; a salt spray test is simple to perform and its results seem to be immediately understandable to everyone.
Salt spray test not only tests the corrosion resistance of the base material but can also show the influence of surface preparation on the resistance of stainless steel to atmospheric corrosion.
Salt spray test is multi-material and can also be a combined test of material and surface finish, due to the fact that roughness and wettability play a considerable role in the final result.

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Refractometer

June 25th, 2014 by Acmas No comments »

A refractometer measures the extent to which light is bent (i.e. refracted) when it moves from air into a sample and is typically used to determine the index of refraction (aka refractive index or n) of a liquid sample.

The refractive index is commonly determined as part of the characterization of liquid samples, in much the same way that melting points are routinely obtained to characterize solid compounds. It is also commonly used to:

Help identify or confirm the identity of a sample by comparing its refractive index to known values.
Assess the purity of a sample by comparing its refractive index to the value for the pure substance.
Determine the concentration of a solute in a solution by comparing the solution’s refractive index to a standard curve.

he speed of light in a vacuum is always the same, but when light moves through any other medium it travels more slowly since it is constantly being absorbed and reemitted by the atoms in the material. The ratio of the speed of light in a vacuum to the speed of light in another substance is defined as the index of refraction (aka refractive index or n) for the substance.

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Projection Microscope

June 24th, 2014 by Acmas No comments »

A compound light microscope with an added feature of projecting the microscopic image to a wall or projecting screen is called Projection Microscope. Projection microscope is based on the radial propagation of an electron beam from a point source. Projection microscope is interfaced with computer to project the object on wide computer screen for easy analysis. This is the best option for Textile fiber analysis. Any type of measurement like length, area, count of any fine textile fiber can be done. The Projection Microscope is very useful for classroom applications as it projects the image to a wall or computer screen.

Projection microscope forms an extremely enlarged real image of some small objects on a distant screen which can be computer screen. It is different from the viewing microscope in which the viewer observes a virtual image, located in the same plane as the object at a distance of 25 cm from the eye the closest distance of distinct vision.

In both projection and viewing microscopes,

The objective lens focuses light from the Object to create a magnified real intermediate image.
This image, obtained from the objective lens, serves as an object, or source of light, for the second lens.
This second lens can be eyepiece in the viewing microscope or a projecting lens in the projecting microscope.

A viewing microscope can be converted to a projecting microscope by increasing the separation of the two lenses named objective lens and eyepiece, as the first principal focus of the eyepiece lens lies to the right of image obtained from objective piece in the projector, whereas second principal focus is to the left of image obtained from objective lens in the viewing microscope.

In general in the projection microscope, the first lens of the microscope, the objective lens, creates a magnified real image of our object. This intermediate image serves as the object or basis for the second lens of the microscope, the projector lens through which the image projects on computer screen.