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SHAMJITH KM
SHAMJITH KM

The document describes procedures for determining various properties of bituminous materials including penetration value, softening point, ductility, and viscosity. The penetration value test measures the hardness or consistency of a bituminous material by the distance a needle penetrates into a sample under specified conditions. The softening point test determines the temperature at which a bitumen or tar sample reaches a specified softening level. The ductility test measures the distance a bitumen sample will elongate before breaking when pulled apart at a specified speed and temperature. The viscosity test determines the time taken for 50mL of a bituminous material to flow through a specified orifice at a given temperature, providing a measure of its resistance to flow.

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Exp.No.5 DETERMINATION OF PENETRATION VALUE OF BITUMEN 1. Aim 1. To determine the consistency of bituminous material 2. Principle Penetration value is a measurement of hardness or consistency of bituminous material. It is the vertical distance traversed or penetrated by the point of a standard needle in to the bituminous material under specific conditions of load, time, and temperature. This distance is measured in one tenth of a millimeter. This test is used for evaluating consistency of bitumen. It is not regarded as suitable for use in connection with the testing of road tar because of the high surface tension exhibited by these materials and the fact that they contain relatively large amount of free carbon. 3. Apparatus 1. Container A flat bottomed cylindrical metallic dish 55 mm in diameter and 35 mm in depth is required. If the penetration is of the order of 225 or more deeper dish of 70 mm diameter and 45 mm depth is required. 2. Needle: A straight, highly polished, cylindrical hard steel rod, as per standard dimensions 3. Water bath: A water bath maintained at 25.0±0.10 C containing not less than 10 litres of water, the sample being immersed to a depth not less than 100 mm from the top and supported on a perforated shelf not less than 50 mm from the bottom of the bath. 4. Transfer dish or tray: It should provide support to the container and should not rock the container. It should be of such capacity as to completely immerse the container during the test.
5. Penetration apparatus: It should be such that it will allow the needle to penetrate without much friction and is accurately calibrated to give results in one tenth of a millimeter 6. Thermometer: Range 0- 440 C and readable up to 0.20 C 7. Time measuring device: With an accuracy ± 0.1 sec 3. Procedure 1. Preparation of test specimen: Soften the material to a pouring consistency at a temperature not more than 600 C for tars and 900 C for bitumen’s above the approximate softening point and stir it thoroughly until it is homogeneous and is free from air bubbles and water. Pour the melt into the container to a depth at least 10 mm in excess of the expected penetration. Protect the sample from dust and allow it to cool in an atmosphere at a temperature between 15 to 300 C for one hour. Then place it along with the transfer dish in the water bath at 25 ±0.10 C, unless otherwise stated. 2. Fill the transfer dish with water from the water bath to depth sufficient to cover the container completely, place the sample in it and put it upon the stand of the penetration apparatus. 3. Clean the needle with benzene, dry it and load with the weight. The total moving load required is 100 0.25gms, including the weight of the needle, carrier and super-imposed weights. 4. Adjust the needle to make contact with the surface of the sample. This may be done by placing the needle point in contact with its image reflected by the surface of the bituminous material 5. Make the pointer of the dial to read zero or note the initial dial reading. 6. Release the needle for exactly five seconds 7. Adjust the penetration machine to measure the distance penetrated.
8. Make at least 3 readings at points on the surface of the sample not less than 10 mm apart and not less than 10 mm from the side of the dish. After each test return the sample and transfer dish to the water bath and wash the needle clean with benzene and dry it . In case of material of penetration greater than 225, three determinations on each of the two identical test specimens using a separate needle for each determination should be made, leaving the needle in the sample on completion of each determinations to avoid disturbance of the specimen. 5. Result Penetration value of given sample is =
Record of Observations Actual Test Temperature = Test 1 Test 2 Test 3 Mean Penetrometer dial reading Initial Final Penetration value
Exp.No.6 DETERMINATION OF SOFTENING POINT OF BITUMINOUS MATERIAL 1. Aim To determine the softening point of bitumen or tar 2. Principle The softening point of bitumen or tar is the temperature at which the substance attains a particular degree of softening. As per IS:334-1982, it is the temperature (in o C) at which a standard ball passes through a sample of bitumen in a mould and falls through a height of 2.5 cm, when heated under water or glycerin at specified conditions of test. The binder should have sufficient fluidity before its applications in road uses. The determination of softening point helps to know the temperature up to which a bituminous binder should be heated for various road use applications. Softening point is determined by ring and ball apparatus. 3. Apparatus 1. Steel balls-two numbers each of 9.5 mm dia. and weighing 3.5 0.05g. 2. Brass rings-two numbers each having depth of 6.4 mm. The inside diameter at bottom and top is 15.9 mm and 17.5 mm respectively. 3. Ball guides to guide the movement of steel balls centrally. 4. Support- that can hold rings in position and also allows for suspension of a thermometer. The distance between the bottom of the rings and the top surface of the bottom plate of the support is 25 mm. 5. Thermometer that can read up to 100o C with an accuracy of 0.2o C
6. Bath- A heat resistant glass beaker not less than 85 mm in diameter and 1220 mm in depth. 7. Stirrer. 4. Procedure Preparation of test sample 1. Heat the material to a temperature between 75-1000 C above its softening point; stir until, it is completely fluid and free from air bubbles and water. If necessary filter it through IS Sieve 30. Place the rings, previously heated to a temperature approximating to that of the molten material, on a metal plate which has been coated with a mixture of equal parts of glycerin and dextrin. After cooling for 30 minutes in air, level the material in the ring by removing the excess with a warmed, sharp knife. 2 Assemble the apparatus with the rings, thermometer and ball guides in position. 3 Fill the bath with distilled water to a height of 50 mm above the upper surface of the rings. The starting temperature should be 5o C Note: Use glycerin in place of water if the softening point is expected to be above 80 o C the starting temperature may be kept 35o C. 4 Apply heat to the bath and stir the liquid so that the temperature rises at a uniform rate of 5±0.5o C per minute. 5 As the temperature increases the bituminous material softens and the ball sinks through the ring, carrying a portion of the material with it. 6 Note down the temperature when any of the steel ball with bituminous coating touches the bottom plate. 7 Record the temperature when the second ball also touches the bottom plate. The average of the two readings to the nearest 0.5o C is reported as the softening point.
Precautions 1 distilled water should be used as the heating medium. 2 During the conduct of test the apparatus should not be subjected to vibrations. 3 The bulb of the thermometer should be at about the same level as the rings. 5. Result The softening point of given sample is =
Record of Observations Temperature when the ball touches bottom in 0 C 1 2 Average
Exp.No.7 DETERMINATION OF DUCTILITY OF THE BITUMEN 1. Aim 1. To measure the ductility of a given sample of bitumen. 2. Principle The ductility test gives a measure of adhesive property of bitumen and its ability to stretch. In a flexible pavement design, it is necessary that binder should form a thin ductile film around the aggregates so that the physical interlocking of the aggregates is improved. Binder material having insufficient ductility gets cracked when subjected to repeated traffic loads and it provides pervious pavement surface. Ductility of a bituminous material is measured by the distance in cms. to which it will elongate before braking when two ends of standard briquette specimen of the material are pulled apart at a specified speed and at a specified temperature. 3. Apparatus 1. briquette mould: It is made up of brass. The circular holes are provided in the clips to grip the fixed and movable ends of the testing machine. The mould when properly assemble form a briquette specimen of the following dimensions. total length 75.0 ± 0.5 mm distance between clips 30.0 ± 0.3 mm width at mount of slip 20.0 ± 0.2 mm width at minimum cross-section (half way between clips) 10.0 ± 0.1 mm thickness throughout 10.0 ± 0.1 mm 2. water bath. A bath maintained within ±0.1o C of the specified test temperature, containing not less than 10 litres of water, the specimen being submerged to a depth of not less than 10 cms and supported on a perforated shelf and less than 5 cms.from the bottom of the bath.
3. Testing machine. For pouring the briquette of bituminous material apart, any apparatus may be used which is so constructed that the specimen will be continuously submerged in water while the two clips are being pulled apart horizontally at a uniform speed of 50 ± 2.5 mm per minute. 4. Procedure 1. Melt the bituminous test material completely at a temperature of 750 C to 1000 C above the approximate softening point until it becomes thoroughly fluid. 2. Strain the fluid. Through IS sieve 30. 3. After stirring the fluid, pour it in the mould assembly and place it on a brass plate. 4. In order to prevent the material under test from sticking, coat the surface of the plate and interior surfaces of the sides of the mould with mercury or by a mixture of equal parts of glycerin and dextrin. 5. After about 30-40 minutes, keep the plate assembly along with the sample in a water bath. Maintain the temperature of the water bath at 27 O C for half an hour. 6 Remove the sample and mould assembly from the water bath and trim the specimen by leveling the surface using a hot knife. 7 Replace the mould assembly in water bath maintained at 27O C for 80 to 90 minutes. 8 Remove the sides of the mould. 9 Hook the clips carefully on the machine without causing any initial stain. 10 Adjust the pointer to read zero. 11 Start the machine and pull two clips horizontally at a speed of 50 mm per minute. 12 Note the distance at which the bitumen thread of specimen breaks.
13 Record the observations in the Performa and compute the ductility value. Report the mean of two observation, rounded to nearest whole number as the ‘Ductility Value’ Note: machine may have a provision to fix two or more moulds so as to test these specimens simultaneously. Precautions 1 The plate assembly upon which the mould is placed shall be perfectly flat and level so that the bottom surface of the mould touches it throughout. 2 In filling the mould, care should be taken not to disarrange the parts and thus distort the briquette and to see that no air pocket shall be within the molded sample. 5 Result The ductility value of given sample is =
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Record of Observations 1. Bitumen grade = Reading Briquette No Mean 1 2 3 Initial Final Ductility in cm
Exp.No.8 DETERMINATION OF VISCOSITY OF BITUMINOUS MATERIAL 1. Aim To determine the viscosity of bituminous binder. 2. Principle Viscosity of a fluid is the property by virtue of which it offers resistance to flow. Higher the viscosity, the slower will be the movement of the liquid. The viscosity affects the ability of the binder to spread, move into and fill up the voids between aggregates. It also plays an important role in coating of aggregates. Highly viscous binder may not fill up the voids completely thereby resulting in poor density of the mix. At lower viscosity the binder does not hold the aggregates together but just acts as lubricant. The viscosity of bituminous binders falls very rapidly as the temperature rises. Since binders exhibit viscosity over a wider range, it is necessary to use different methods for the determination of viscosity. For binders in liquid state(road tars and cutback bitumen), the viscosity is determined as the time in seconds taken by 50cc. Of the material to flow from a cup through a specified orifice under standard conditions of test and at specified temperature. 3. Apparatus 1 Tar viscometer. It consists essentially of a cup having a specified orifice and valve., a water bath mounded on three legs having suitable sleeve for the cup, a stirrer and a shield. The following is the detailed description of the different parts and accessories of tar viscometer. a) Cup. It is made of hard brass tube and fitted with an external brass collar at the upper end of the cylinder to support the cup. The bottom of cup consists of circular phosphor- bronze plate screwed into the cylinder and made conical to facilitate drainage of tar after use. It is provided with a perfectly cylindrical extension of diameter 10 mm and length 5 mm. Some viscometers have orifice of 4 mm dia.
b)Valve. It serves to close the orifice of cup and is made of phosphor-bronze as per the dimensions given in figure. c) Water bath. It is made of copper sheet, is cylindrical in shape, about 160 mm in diameter and 105 mm in depth. It is mounted on three equidistant legs. d) sleeve to receive the cup and to hold it in position. e) Stirrer consists of four vertical vanes. f) Curved shield it is fixed to the upper edge of the cylinder and extends to within about 5 mm of the walls of the water bath. This shield carries an insulated handle for rotating the stirrer, a support for a thermometer, and a swiveled support for the valve. 2. Receiver: A 100 ml graduated cylinder, having an internal diameter of not more than 29 mm. It has markings on 25ml and 75ml levels. 3. Thermometers, one for bath and another for cup. The measurement range should be 0 to 44 o C or 37.8o C to 82 o C OR 76 to 122o C depending upon whether the viscosity is expected to be low, medium or high., The thermometer should be readable and accurate up to 0.2 o C 4. A stop watch or other timing device capable of being read up to 0.5 seconds Note: The working range of the tar viscometer with 10mm orifice is such that liquid having time of efflux between 10 second and 140 second should be used. For 4 mm orifice, it should be 20 to 200 seconds. 4. Procedure 1 Adjust the tar viscometer so that the top of the tar cup is leveled. Select the test temperature from table 1. Heat the water in water bath to the temperature specified for the test and maintain it within+0.1o C of the specified temperature throughout the duration of test. Rotate the stirrer gently at frequent intervals or perfectly continuous. 2 Clean the tar cup orifice of the viscometer with a suitable solvent and dry thoroughly.
3 Warm the material under examination to 20 o C above the temperature specified for test and cool, while continuing the stirring. 4 When the temperature falls slightly above the specified temperature, pour the tar into the cup until the leveling peg on the valve rod is just immersed when the latter is vertical. 5 Pour into the graduated receiver 20 ml of mineral oil, or one percent by weight solution of soft soap, and place it under the orifice of the tar cup. 6 Place the other thermometer in the tar and stir until the temperature is within± 0.1o C of the specified temperature when this temperature has been reached, suspend the thermometer coaxially with the cup and with its bulb approximately at the geometric centre of the tar 7 Allow the assembled apparatus to stand for five minutes during which period the thermometer reading should remain within 0.05o C of the specified temperature. Remove the thermometer and quickly remove any excess of tar so that the final level is on the central line of the leveling peg when the valve is in vertical position. 8 Lift the valve and suspend it on valve support. 9 Start the stop watch when the reading in the cylinder is 25ml and stop it when it is 75 ml. Note the time in seconds, 10 Report the viscosity as the time taken in seconds by 50ml of tar to flow out at the temperature specified for the test. Precautions. 1 The tar cup should be cleaned gently with non corroding solvents such as light tar oils free from phenols. 2 The orifice size should be tested at frequent intervals with a gauge having appropriate diameters. 5 Result. Viscosity of given sample is
Record of observation Test 1 Test 2 Test temperature Time taken to flow 50cc of the binder Viscosity in sec

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  • 1. Exp.No.5 DETERMINATION OF PENETRATION VALUE OF BITUMEN 1. Aim 1. To determine the consistency of bituminous material 2. Principle Penetration value is a measurement of hardness or consistency of bituminous material. It is the vertical distance traversed or penetrated by the point of a standard needle in to the bituminous material under specific conditions of load, time, and temperature. This distance is measured in one tenth of a millimeter. This test is used for evaluating consistency of bitumen. It is not regarded as suitable for use in connection with the testing of road tar because of the high surface tension exhibited by these materials and the fact that they contain relatively large amount of free carbon. 3. Apparatus 1. Container A flat bottomed cylindrical metallic dish 55 mm in diameter and 35 mm in depth is required. If the penetration is of the order of 225 or more deeper dish of 70 mm diameter and 45 mm depth is required. 2. Needle: A straight, highly polished, cylindrical hard steel rod, as per standard dimensions 3. Water bath: A water bath maintained at 25.0±0.10 C containing not less than 10 litres of water, the sample being immersed to a depth not less than 100 mm from the top and supported on a perforated shelf not less than 50 mm from the bottom of the bath. 4. Transfer dish or tray: It should provide support to the container and should not rock the container. It should be of such capacity as to completely immerse the container during the test.
  • 2. 5. Penetration apparatus: It should be such that it will allow the needle to penetrate without much friction and is accurately calibrated to give results in one tenth of a millimeter 6. Thermometer: Range 0- 440 C and readable up to 0.20 C 7. Time measuring device: With an accuracy ± 0.1 sec 3. Procedure 1. Preparation of test specimen: Soften the material to a pouring consistency at a temperature not more than 600 C for tars and 900 C for bitumen’s above the approximate softening point and stir it thoroughly until it is homogeneous and is free from air bubbles and water. Pour the melt into the container to a depth at least 10 mm in excess of the expected penetration. Protect the sample from dust and allow it to cool in an atmosphere at a temperature between 15 to 300 C for one hour. Then place it along with the transfer dish in the water bath at 25 ±0.10 C, unless otherwise stated. 2. Fill the transfer dish with water from the water bath to depth sufficient to cover the container completely, place the sample in it and put it upon the stand of the penetration apparatus. 3. Clean the needle with benzene, dry it and load with the weight. The total moving load required is 100 0.25gms, including the weight of the needle, carrier and super-imposed weights. 4. Adjust the needle to make contact with the surface of the sample. This may be done by placing the needle point in contact with its image reflected by the surface of the bituminous material 5. Make the pointer of the dial to read zero or note the initial dial reading. 6. Release the needle for exactly five seconds 7. Adjust the penetration machine to measure the distance penetrated.
  • 3. 8. Make at least 3 readings at points on the surface of the sample not less than 10 mm apart and not less than 10 mm from the side of the dish. After each test return the sample and transfer dish to the water bath and wash the needle clean with benzene and dry it . In case of material of penetration greater than 225, three determinations on each of the two identical test specimens using a separate needle for each determination should be made, leaving the needle in the sample on completion of each determinations to avoid disturbance of the specimen. 5. Result Penetration value of given sample is =
  • 4. Record of Observations Actual Test Temperature = Test 1 Test 2 Test 3 Mean Penetrometer dial reading Initial Final Penetration value
  • 5. Exp.No.6 DETERMINATION OF SOFTENING POINT OF BITUMINOUS MATERIAL 1. Aim To determine the softening point of bitumen or tar 2. Principle The softening point of bitumen or tar is the temperature at which the substance attains a particular degree of softening. As per IS:334-1982, it is the temperature (in o C) at which a standard ball passes through a sample of bitumen in a mould and falls through a height of 2.5 cm, when heated under water or glycerin at specified conditions of test. The binder should have sufficient fluidity before its applications in road uses. The determination of softening point helps to know the temperature up to which a bituminous binder should be heated for various road use applications. Softening point is determined by ring and ball apparatus. 3. Apparatus 1. Steel balls-two numbers each of 9.5 mm dia. and weighing 3.5 0.05g. 2. Brass rings-two numbers each having depth of 6.4 mm. The inside diameter at bottom and top is 15.9 mm and 17.5 mm respectively. 3. Ball guides to guide the movement of steel balls centrally. 4. Support- that can hold rings in position and also allows for suspension of a thermometer. The distance between the bottom of the rings and the top surface of the bottom plate of the support is 25 mm. 5. Thermometer that can read up to 100o C with an accuracy of 0.2o C
  • 6. 6. Bath- A heat resistant glass beaker not less than 85 mm in diameter and 1220 mm in depth. 7. Stirrer. 4. Procedure Preparation of test sample 1. Heat the material to a temperature between 75-1000 C above its softening point; stir until, it is completely fluid and free from air bubbles and water. If necessary filter it through IS Sieve 30. Place the rings, previously heated to a temperature approximating to that of the molten material, on a metal plate which has been coated with a mixture of equal parts of glycerin and dextrin. After cooling for 30 minutes in air, level the material in the ring by removing the excess with a warmed, sharp knife. 2 Assemble the apparatus with the rings, thermometer and ball guides in position. 3 Fill the bath with distilled water to a height of 50 mm above the upper surface of the rings. The starting temperature should be 5o C Note: Use glycerin in place of water if the softening point is expected to be above 80 o C the starting temperature may be kept 35o C. 4 Apply heat to the bath and stir the liquid so that the temperature rises at a uniform rate of 5±0.5o C per minute. 5 As the temperature increases the bituminous material softens and the ball sinks through the ring, carrying a portion of the material with it. 6 Note down the temperature when any of the steel ball with bituminous coating touches the bottom plate. 7 Record the temperature when the second ball also touches the bottom plate. The average of the two readings to the nearest 0.5o C is reported as the softening point.
  • 7. Precautions 1 distilled water should be used as the heating medium. 2 During the conduct of test the apparatus should not be subjected to vibrations. 3 The bulb of the thermometer should be at about the same level as the rings. 5. Result The softening point of given sample is =
  • 8. Record of Observations Temperature when the ball touches bottom in 0 C 1 2 Average
  • 9. Exp.No.7 DETERMINATION OF DUCTILITY OF THE BITUMEN 1. Aim 1. To measure the ductility of a given sample of bitumen. 2. Principle The ductility test gives a measure of adhesive property of bitumen and its ability to stretch. In a flexible pavement design, it is necessary that binder should form a thin ductile film around the aggregates so that the physical interlocking of the aggregates is improved. Binder material having insufficient ductility gets cracked when subjected to repeated traffic loads and it provides pervious pavement surface. Ductility of a bituminous material is measured by the distance in cms. to which it will elongate before braking when two ends of standard briquette specimen of the material are pulled apart at a specified speed and at a specified temperature. 3. Apparatus 1. briquette mould: It is made up of brass. The circular holes are provided in the clips to grip the fixed and movable ends of the testing machine. The mould when properly assemble form a briquette specimen of the following dimensions. total length 75.0 ± 0.5 mm distance between clips 30.0 ± 0.3 mm width at mount of slip 20.0 ± 0.2 mm width at minimum cross-section (half way between clips) 10.0 ± 0.1 mm thickness throughout 10.0 ± 0.1 mm 2. water bath. A bath maintained within ±0.1o C of the specified test temperature, containing not less than 10 litres of water, the specimen being submerged to a depth of not less than 10 cms and supported on a perforated shelf and less than 5 cms.from the bottom of the bath.
  • 10. 3. Testing machine. For pouring the briquette of bituminous material apart, any apparatus may be used which is so constructed that the specimen will be continuously submerged in water while the two clips are being pulled apart horizontally at a uniform speed of 50 ± 2.5 mm per minute. 4. Procedure 1. Melt the bituminous test material completely at a temperature of 750 C to 1000 C above the approximate softening point until it becomes thoroughly fluid. 2. Strain the fluid. Through IS sieve 30. 3. After stirring the fluid, pour it in the mould assembly and place it on a brass plate. 4. In order to prevent the material under test from sticking, coat the surface of the plate and interior surfaces of the sides of the mould with mercury or by a mixture of equal parts of glycerin and dextrin. 5. After about 30-40 minutes, keep the plate assembly along with the sample in a water bath. Maintain the temperature of the water bath at 27 O C for half an hour. 6 Remove the sample and mould assembly from the water bath and trim the specimen by leveling the surface using a hot knife. 7 Replace the mould assembly in water bath maintained at 27O C for 80 to 90 minutes. 8 Remove the sides of the mould. 9 Hook the clips carefully on the machine without causing any initial stain. 10 Adjust the pointer to read zero. 11 Start the machine and pull two clips horizontally at a speed of 50 mm per minute. 12 Note the distance at which the bitumen thread of specimen breaks.
  • 11. 13 Record the observations in the Performa and compute the ductility value. Report the mean of two observation, rounded to nearest whole number as the ‘Ductility Value’ Note: machine may have a provision to fix two or more moulds so as to test these specimens simultaneously. Precautions 1 The plate assembly upon which the mould is placed shall be perfectly flat and level so that the bottom surface of the mould touches it throughout. 2 In filling the mould, care should be taken not to disarrange the parts and thus distort the briquette and to see that no air pocket shall be within the molded sample. 5 Result The ductility value of given sample is =
  • 13. Record of Observations 1. Bitumen grade = Reading Briquette No Mean 1 2 3 Initial Final Ductility in cm
  • 14. Exp.No.8 DETERMINATION OF VISCOSITY OF BITUMINOUS MATERIAL 1. Aim To determine the viscosity of bituminous binder. 2. Principle Viscosity of a fluid is the property by virtue of which it offers resistance to flow. Higher the viscosity, the slower will be the movement of the liquid. The viscosity affects the ability of the binder to spread, move into and fill up the voids between aggregates. It also plays an important role in coating of aggregates. Highly viscous binder may not fill up the voids completely thereby resulting in poor density of the mix. At lower viscosity the binder does not hold the aggregates together but just acts as lubricant. The viscosity of bituminous binders falls very rapidly as the temperature rises. Since binders exhibit viscosity over a wider range, it is necessary to use different methods for the determination of viscosity. For binders in liquid state(road tars and cutback bitumen), the viscosity is determined as the time in seconds taken by 50cc. Of the material to flow from a cup through a specified orifice under standard conditions of test and at specified temperature. 3. Apparatus 1 Tar viscometer. It consists essentially of a cup having a specified orifice and valve., a water bath mounded on three legs having suitable sleeve for the cup, a stirrer and a shield. The following is the detailed description of the different parts and accessories of tar viscometer. a) Cup. It is made of hard brass tube and fitted with an external brass collar at the upper end of the cylinder to support the cup. The bottom of cup consists of circular phosphor- bronze plate screwed into the cylinder and made conical to facilitate drainage of tar after use. It is provided with a perfectly cylindrical extension of diameter 10 mm and length 5 mm. Some viscometers have orifice of 4 mm dia.
  • 15. b)Valve. It serves to close the orifice of cup and is made of phosphor-bronze as per the dimensions given in figure. c) Water bath. It is made of copper sheet, is cylindrical in shape, about 160 mm in diameter and 105 mm in depth. It is mounted on three equidistant legs. d) sleeve to receive the cup and to hold it in position. e) Stirrer consists of four vertical vanes. f) Curved shield it is fixed to the upper edge of the cylinder and extends to within about 5 mm of the walls of the water bath. This shield carries an insulated handle for rotating the stirrer, a support for a thermometer, and a swiveled support for the valve. 2. Receiver: A 100 ml graduated cylinder, having an internal diameter of not more than 29 mm. It has markings on 25ml and 75ml levels. 3. Thermometers, one for bath and another for cup. The measurement range should be 0 to 44 o C or 37.8o C to 82 o C OR 76 to 122o C depending upon whether the viscosity is expected to be low, medium or high., The thermometer should be readable and accurate up to 0.2 o C 4. A stop watch or other timing device capable of being read up to 0.5 seconds Note: The working range of the tar viscometer with 10mm orifice is such that liquid having time of efflux between 10 second and 140 second should be used. For 4 mm orifice, it should be 20 to 200 seconds. 4. Procedure 1 Adjust the tar viscometer so that the top of the tar cup is leveled. Select the test temperature from table 1. Heat the water in water bath to the temperature specified for the test and maintain it within+0.1o C of the specified temperature throughout the duration of test. Rotate the stirrer gently at frequent intervals or perfectly continuous. 2 Clean the tar cup orifice of the viscometer with a suitable solvent and dry thoroughly.
  • 16. 3 Warm the material under examination to 20 o C above the temperature specified for test and cool, while continuing the stirring. 4 When the temperature falls slightly above the specified temperature, pour the tar into the cup until the leveling peg on the valve rod is just immersed when the latter is vertical. 5 Pour into the graduated receiver 20 ml of mineral oil, or one percent by weight solution of soft soap, and place it under the orifice of the tar cup. 6 Place the other thermometer in the tar and stir until the temperature is within± 0.1o C of the specified temperature when this temperature has been reached, suspend the thermometer coaxially with the cup and with its bulb approximately at the geometric centre of the tar 7 Allow the assembled apparatus to stand for five minutes during which period the thermometer reading should remain within 0.05o C of the specified temperature. Remove the thermometer and quickly remove any excess of tar so that the final level is on the central line of the leveling peg when the valve is in vertical position. 8 Lift the valve and suspend it on valve support. 9 Start the stop watch when the reading in the cylinder is 25ml and stop it when it is 75 ml. Note the time in seconds, 10 Report the viscosity as the time taken in seconds by 50ml of tar to flow out at the temperature specified for the test. Precautions. 1 The tar cup should be cleaned gently with non corroding solvents such as light tar oils free from phenols. 2 The orifice size should be tested at frequent intervals with a gauge having appropriate diameters. 5 Result. Viscosity of given sample is
  • 17. Record of observation Test 1 Test 2 Test temperature Time taken to flow 50cc of the binder Viscosity in sec