Bitumen is a by-product of fractional distillation of crude oil.
Current world consumption of bitumen is approximately 120 million tons per year.
In India, flexible pavements with bituminous surfacing are widely used.
Rapid development, exponential increase in traffic, and significant variations in daily and seasonal temperatures have shown some limitations in bitumen binder performance.
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Polymer Modified Bitumen (PMB) for Road Construction
1. POLYMER MODIFIED BITUMEN
FOR ROAD CONSTRUCTION
Guide:
Dhaneesh K P Jomson Mathachan
Asst. Professor S8-Chemical Engg.
Dept. Of Chemical Engg GEC-Kozhikode
G.E.C. Kozhikode Reg No :GCAOECH060
3. INTRODUCTION
Bitumen is a by-product of fractional distillation of crude
oil.
Current world consumption of bitumen is approximately
120 million tons per year.
In India, flexible pavements with bituminous surfacing
are widely used.
Rapid development, exponential increase in traffic, and
significant variations in daily and seasonal temperatures
have shown some limitations in bitumen binder
performance.
5. Bitumen needs to be hardened to overcome these issues
and for better life of pavement.
For modification of bitumen the polymer should
compatible with bitumen, processed by conventional
mixing and laying machinery, Capable of providing
homogeneous blend with bitumen.
Three types Bitumen Modification
1. Plastic Modified Bitumen (PMB)
2. Crumb Rubber Modified Bitumen (CRMB)
3. Natural Rubber Modified Bitumen (NRMB)
6. 1. PLASTIC ROAD
The roads constructed using waste plastic, known as
Plastic Roads.
In India consumption of Plastics will grow 15 million tons
by 2017.
Polymer Demand In India (Million Tones)
7. Materials Used
1. Aggregate
10 mm- 20 mm
2. Bitumen
30/40,60/70,80/100 Grade
bitumen
3. Waste Plastic
PE,PS,PP (PVC not used)
9. Basic Process
1. Collection of Waste Plastic
2. Segregation
3. Cleaning Process
4. Shredding Process
2 mm and 4mm
5. Mixing
a) Wet Process
b) Dry Process
11. Dry Process
1. Heating aggregate (170°C) & Bitumen (160°C)
2. Shredded plastic is added over the hot aggregate (10-
15% by wt. of aggregate).
3. The plastics waste coated aggregate is mixed with hot
bitumen (150°C-165°C ).
4. Road Laying(110-120°C )
using 8 ton capacity road roller.
12. 1. Aggregate
2. Area of Plastics bonded with aggregate (polymer coating)
3. Area of Bitumen–plastics blends (due to diffusion between
molten plastics & hot bitumen).
4. Area of Loosely bonded bitumen with dispersed plastics
5. Area of Plain bitumen layer.
13. Characteristics of Polymer Modified Bitumen
More than 3% addition of waste plastics to the bitumen
results in a hard polymer modified bitumen with very poor
viscoelastic property.
14. Prefabricated PlasticRoad
This PlasticRoad uses100% recycled plastic and to make it
fully reusable. The project is an outcome of a partnership
between three companies namely KWS, Wavin, Total
In this project, the aim is to build pre-fabricated and hollow
spaces and lay them down in the form of blocks for road
construction.
The prefabricated road structure then be assembled on site just
like the LEGO bricks.
Add sand or crushed stone to the prefabrication mix for get
stiffness.
The hollow space that can be used to preventing flooding
during extreme precipitation and also used for the transit of
cables and pipes.
The prefabricated production, the light weight and the modular
design of the PlasticRoad make construction and maintenance
faster, simpler and more efficient .
15.
16. Advantages of Plastic Road
Reduce the need of bitumen by around 10%.
Life of the rod doubled.
Resistance towards water stagnation
Burning of plastics waste could be avoided.
It doesn’t increase cost of road construction.
Use higher percentage of plastics waste.
Use higher percentage of plastics waste.
17. Disadvantages of Plastic Road
The presence of chlorine will definitely release noxious
HCl gas. During the road laying process.
18. 2. RUBBERISED ROAD
Rubberised roads' are made from consists of
regular asphalt concrete mixed with rubber.
Crumb Rubber Modified Bitumen is a mixture of hot
bitumen and crumb rubber derived from scrap tyres.
The use of CRMB in road construction for safe disposal
of discarded tyres of automobiles.
Globally over 15 million tones of waste tyres are
generated, annually. India also contributes approx.
1million tyres annually.
Currently waste tyres are being utilized for Recycling,
Pyrolysis, Land Fill, Crumb Rubber.
19. WASTE TYRE : An Environmental Hazard
Tyres not naturally degradable and difficult to treat.
Accidental fires caused in stockpiled sites can rage for
months releasing toxic fumes. The oily residue left after
tyre fire is difficult to eliminate from the environment.
The little pools of water retained by whole waste tyres
create an ideal breeding ground for mosquitoes.
20. Materials Used
1. Crumb Rubber
Crumb rubber is recycled rubber produced
from automotive and truck scrap tires by granulation
process (1-10mm).
A waste tyre typically consists of Elastomeric
compound (53%), Fabric (5.5%), Steel (16.5%),
Carbon Black (25%) and other additives.
2. Aggregate
3.Bitumen
21. Basic Process
1. Collection of Scrap Tyres.
2. Crumb Rubber Production
a) Ambient grinding
Size ranging from 0.5 to 5 mm.
Irregularly shaped and
high surface area.
b) Cryogenic Fracturing
-87 to -198 °C (liq.N2)
smooth particles with
relatively lower surface area.
Size ranging from 2 to 6 mm.
22. a) Dry Process
Introduced by two Swedish company
Mixing the rubber particles with aggregates prior to
addition to Bitumen.
Crumb rubber as a substitute for a part of mineral
aggregate.
Crumb rubber(of 1–3% by wt. aggregate) is added to
warm aggregate (160 to 180°C) for a mixing time of 15–
30 seconds.
The bitumen (160°C) is added mixed for 15–30 seconds.
During this time, bitumen is partially modified with
rubber .
23. Rubber granules behave as aggregate to be uniformly
dispersed throughout the paving mixture.
This mixture gave a good surface texture due to
protruding rubber granulate, which gave improved skid
resistance over conventional Bitumen.
Cryogenic rubber is typically used in this process.
24. Wet Process (Mc Donald’s Process)
Incorporating crumb rubber into bitumen prior to mixing
with aggregates.
25. During this reaction time the rubber particles absorb some
of the light fractions of Bitumen binder and swell.
If the temperature is too high or the time is too long
which causes depolymerisation /devulcanisation of
crumb rubber.
26. Advantages of Rubberised Road
Rubberized bitumen has higher softening point, giving
more stability to the pavement during hot months.
Reduce the noise pollution of heavy traffic roads.
Conventional stone aggregate can be saved to the certain
quantities.
Improved the skid resistance of road.
Use higher percentage of Scrap tyre.
Resistance to cracking, raveling, deformation and creep
failure.
Improved resistance to stripping due to water repellent
properties.
27. Disadvantages of Rubberised Road
The bitumen-rubber materials must be properly selected ,
designed & produced.
Rubberized asphalt is sticky when applied so it is required
for the roadway to be sprayed with water.
28. CONCLUSIONS
The use of waste polymer in bitumen modification will
improves the strength and overall durability of the road.
The use of waste polymer in bituminous concrete mix
may aid in minimizing the construction cost of the roads.
Moreover it may also contribute in preventing the
environmental pollution caused by the dumping of
polymer waste materials in ground.
29. REFERENCES
1. Jiqing Zhu, Bjorn Birgisson, Niki Kringos “Polymer modification of
bitumen: Advances and challenges” in European Polymer Journal 54
(2014) 18–38
2. S.Rajasekaran, Dr. R. Vasudevan2, Dr. Samuvel Paulraj3 “Reuse of Waste
Plastics Coated Aggregates-Bitumen Mix Composite for Road
Application – Green Method” in American Journal of Engineering
Research (AJER). Volume-02, Issue-11, January 2013.
3. William W. Crockford, Danai Makunike, Richard R. Davison, Tom
Scullion and Travis C. Billiter “Recycling Crumb Rubber Modified
Asphalt Pavements” in Texas Transportation Institute Research Report
1333-1F.
4. Davide Lo Presti “Recycled Tyre Rubber Modified Bitumens for road
asphalt mixtures” in Construction and Building Materials. September
2013, 863–881.
5. Prof. S. B. Patil , Prof. A. A. Lole , Prof. N. U. Bavane , Prof. S. S.
Shinde “Use of waste tyres in road construction” in International
Research Journal of Engineering and Technology. Volume: 03 Issue: 12 |
Dec -2016.
6. Jiqing Zhu, Bjorn Birgisson, Niki Kringos “Polymer modification of
bitumen: Advances and challenges” in European Polymer Journal 54
(2014) 18–38