DIFFERENT TEST OF BRICKS

TESTING OF BRICKS

About fifty pieces of bricks are taken at random from different parts of the stack to perform various tests. For the purpose of sampling, a lot should contain maximum of 50,000 bricks. The number of bricks selected for forming a sample are as per Table 2.3, (IS: 5454). The scale of sampling for physical characteristics is given in Table 2.4.



Dimension Test (IS 1077) : 20 pieces out of selected pieces (Table 2.3) are taken and are laid flat as shown in Fig. 1 The cumulative dimensions of the bricks should be as discussed in Sec. 2.5.

The tolerances (Section 2.5) on the sizes of bricks are fixed by giving maximum and minimum dimensions, not on individual bricks but on batches of 20 bricks chosen at random.

It follows from this method of measurement that batches are likely to contain, bricks outside the prescribed limit of tolerance. Such lots should be rejected to avoid complaints about the variation of perpends.

Fig. 1 Measurement of Tolerance of common  building bricks

WATER ABSORPTION TEST (IS 3495 PART2)


The existence of minute pores confers marked capillary properties on brick ceramics. In particular all bricks absorb water by capillary action. The percentage of water absorption is a very valuable indication of the degree of burning. Vitrification, in the true sense, corresponds to such a dgree of compactness that the absorption of the brick is not over 3 per cent after 48 hours of immersion. It has been reported that for absorption less than 5 per cent danger from frost is negligible.


Water absorption does not necessarily indicate the behavior of a brick in weathering. Low absorption (< 7 %) usually indicates a high resistance to damage by freezing, although some type of bricks of much higher absorption may also be frost resistance. Since expansive force of water freezing in the pores of a clay product depends upon the proportion of pore space occupied, the ratio of the absorption after 24 hours submersion to the absorption after boiling for 5 hours (C24/B5) appears to be a better criterion of resistance to freezing than the percentage of absorption.

The durability of a brick may be tested by frost action, i.e., by alternate wetting and drying. The absorption test has long been considered a measure of durability, although the basis for this assumption is questionable. The suction rate of the brick at the time it is laid exercises a mark influence on the mortar bond. Too rapid withdrawal of water from the mortar by the brick produces a weak bond. The rate at which a brick absorbs water, frequently called its suction rate, maybe measured by immersing one face of the brick in water. The one minute water uptake (initial rate of absorprion) is taken as the suction rate. For long periods of immersion in theis test, the total wieght of water absorbed per unit area,


where, A is the water absorption coefficient
     and t is the time elapsed in the test.

The standard methods of finding the absorption value of the bricks are discussed below. If absorption by volume is desired it can be obtained by multiplying the weight percentage by the apparent specific gravity.

24 Hours Immersion Cold Water Test : Dry bricks are put in an oven at a temperature of 105° to 115°C till these attain constant mass. The weight (W1) of the bricks is recorded after cooling them to room temperature. The bricks are then immersed in water at a temperature of 27° ± 2°C for 24 hours. The specimens are then taken out of water and wiped with a damp cloth. Three minutes, thereafter it is weighed again and recorded as W2.


The average water absorption shall not be more than 20 per cent by weight upto class 12.5 and 15 per cent by weight for higher classes.

Five Hours Boiling Water Test : The weight of the oven dried bricks (W1) is recorded as above. Then the specimen is immersed in the water and boiled for five hours, followed by cooling down to 27° ± 2°C by natural loss of heat within 16–19 hours. The specimen is taken out of water and wiped with a damp cloth and the weight is recorded as W3.


COMPRESSIVE STRENGTH TEST (IS 3495 Part 1) 

The crushing affords a basis for comparing the quality of bricks but is of little value in determining the strength of a masonry wall, since the latter depends primarily on the strength of mortar. Six bricks are taken for the compressive strength test althought it may be found that an individual brick varies by 20% or more from the average, the permissible stresses allowed for load bearing walls take account of this, being based on an average strength of six bricks. It is, therefore, both unnecessary and uneconomical to insist that every bricks is above a certain strength. As a criterion of structural strength for brick, the transverse failure in a wall or pavement is likely to occur on account of improper bedment. 

For testing bricks for compressive strength from a sample the two bed faces of bricks are ground to provide smooth, even and parallel faces. The bricks are then immersed in water at room temperature for 24 hours. These are then taken out of water and surplus water on the surfaces is wiped off with cotton or a moist cloth. The frog of the brick is flushed level with cement mortar and the brick is stored under damp jute bags for 24 hours followed by its immersion in water at room temperature for three days. The specimen is placed in the compression testing machine with flat faces horizontal and mortar filled face being upwards.

Load is applied at a uniform rate of 14 N/m2 per minute till failure. The maximum load at failure divided by the average area of bed face gives the compressive strength.


The average of results shall be reported. The compressive strength of any individual brick tested in the sample should not fall below the minimum average compressive strength specified for the corresponding class of brick by more than 20 percent.

WARPAGE TEST (IS 3495 PART IV)

Warpage of the brick is measured with the help of a flat steel or glass surface and measuring ruler graduated in 0.5 mm divisions or wedge of steel 60 × 15 × 15 mm (Fig. 2). For warpage test, the sample consists of 10 bricks from a lot.

Concave Warpage : The flat surface of the brick is placed along the surface to be measured selecting the location that gives the greatest deviation from straightness. The greatest distance of brick surface from the edge of straightness is measured by a steel ruler or wedge.
Convex Warpage : The brick is place on the plane surface with the convex surface in contact with the flat surface and the distances of four corners of brick are measured from the flat surface. The largest distance is reported as warpage. The higher of the distance measured in concave and convex warpage tests is reported as warpage.

Fig. 2 Measuring Wedge

EFFLORESCENCE TEST (IS 3495 PART III)

The ends of the brick are kept in a 150 mm diameter porcelain or glass dish containing 25 mm depth of water at room temperature (20°–30°C) till the entire water is absorbed or evaporated. The water is again filled to 25 mm depth in the dish and allowed to be absorbed by the brick or evaporated. Presence of efflorescence is classified as below.

1. Nil — When the deposit of efflorescence is imperceptible.
2. Slight — When the deposit of efflorescence does not cover more than 10 per cent of the exposed area of the brick.
3. Moderate — When the deposit of efflorescence is more than 10 per cent but less than 50% of the exposed area of the brick.
4. Heavy — When the deposit of efflorescence is more than 50 per cent but the deposits do not powder or flake away the brick surface.
5. Serious — When the deposits are heavy and powder or flake away the brick surface.

The specifications limit the efflorescence to be not more than moderate (10–50%) up to class 12.5 and not more than slight (< 10 per cent) for higher classes.


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