TITLE: PROCESS FOR PREPARING A MODIFIER FOR BITUMEN AND PRODUCT OBTAINED
THEREFROM
European Patent EP0370017
 B1

ABSTRACT:
Abstract not available for EP0370017
Abstract of corresponding document: WO8808866
Process for preparing a modifier for bitumen, consisting of: mixing a
socalled ''lubricating fraction'' composed of lubricating liquids
derived from oil or synthetic products with polymers or polymer
mixtures which can be attacked by the ''lubricating fraction'' and with
other additives such as atactic ehylene-propylene copolymers,
polyolefins, polystirene, polydiene; melting said solid components to
make them homogeneous to one another; casting said components in
cake-shaped moulds or reducing them to grains; cooling said mixture to
room temperature. The obtained product is a modifier to be successively
added to bitumen in order to provide impermeable sheaths or other
impregnating products, conglomerates or featheredges.

INVENTORS:
Boria, Luigi (Via Montanara, 25, Terni, I-05100, IT)
Bottalli, Renato (Villaggio Polimer, 20, Terni, I-05100, IT)
Broussard, Gabriele (Via Oberdan, 17, Terni, I-05100, IT)

APPLICATION NUMBER: EP19880903925
PUBLICATION DATE: 12/09/1992
FILING DATE: 05/11/1988

ASSIGNEE: INTERCHIMICA S.P.A. (Casella Postale 152, Terni, I-05100, IT)
INTERNATIONAL CLASSES: C08L23/02; C08L23/12; C08L23/16; C08L91/00; C08L95/00; C08L23/06;
(IPC1-7): C08L23/02; C08L23/06; C08L23/12; C08L23/16; C08L91/00;
C08L95/00
EUROPEAN CLASSES: C08L95/00+B

DOMESTIC PATENT REFERENCES:
EP0131397 Bitumenous compositions.
EP0204157 Polymeric compositions suitable for use as bitumen modifiers
 and bituminous compositions so modified.
EP0206015 A composition and method for utilizing the sludge obtained
 when processing waste lubricating oils.
Attorney, Agent or Firm:
Fiammenghi-domenighetti, Delfina (Via Quattro Fontane 31, Roma, 00184,
IT)

CLAIMS:
1. Process for preparing a modifier for bitumen, characterized by the
mixing of: a) a "lubricating fraction" essentially formed of mineral
and synthetic, pure or restored or exhausted oils; b) polymers which
can be attacked by said "lubricating fraction" and mainly consisting of
isotactic polypropylene, polyethylene and mixtures thereof; c)
additives consisting of atactic propylene homopolymers, atactic
ethylene-propylene copolymers, polystyrene, polydiene and bitumen said
resulting mixture being then melted, made homogeneous, cast and cooled
in cakes or grains.
2. Process according to claim 1, characterized in that when said
mixture is being mixed and made homogeneous, the temperature thereof is
increased to about 180^oC.
3. Modifier for bitumen, characterized by following composition: a) a
"lubricating fraction" essentially formed of mineral and synthetic,
pure or restored or exhausted oils; b) polymers which can be attacked
by said "lubricating fraction" and mainly consisting of isotactic
polypropylene, polyethylene and mixtures thereof; c) additives
consisting of atactic propylene homopolymers, atactic
ethylene-propylene copolymers, polystyrene, polydiene and bitumen.
4. Modifier for bitumen according to claim 3, characterized in that the
"lubricating fraction" is in the range between 1 and 85%.
5. Modifier for bitumen according to claim 3, characterized in that the
attackable polymers are in the range between 1 and 70%.
6. Modifier for bitumen according to claim 3, characterized in that the
additives are in the range between 1 and 90%.
7. Modifier for bitumen according to claims 4, 5 and 6, characterized
in that the "lubricating fraction" is in the range between 60 and 80%,
the attackable polymers are in the range between 15 and 30% and the
additives are in the range between 5 and 10%.
8. Modifier for bitumen according to claim 4, 5 and 6, characterized in
that the "lubricating fraction" is in the range between 30 and 55%, the
attackable polymers are in the range between 35 and 50% and the
additives are in the range between 10 and 20%.
9. Bitumen composition, in particular adapted for waterproofing
sheeths, various impregnating products and conglomerates of
featheredges, characterized in that it comprises a modifier for bitumen
according to any claim 3 to 8.

DESCRIPTION:
This invention relates to a process for preparing a modifier adapted to
mainly improve the physical-chemical, technological, mechanical
properties of bitumen as well as the modifier provided by such a
process.
Bitumen, which is formed of the residue of the natural or industrial
oil evaporation, exhibits by nature the properties of being impermeable
to water and other atmospheric agents as well.
It was really used up to 30-40 years ago either alone or together with
a reinforcement of cardboard or fiber glass in the building industry as
well as when a building should be protected.
Bitumen exhibits, however, some properties limiting its capability of
being used such as e.g. the brittleness at temperatures even higher
than 0^oC, the tendency to be deformed (high penetrability, ductility)
and so on. Therefore, modifiers directed to improve the most important
properties have been studied for the last decades.
Generally these modifiers are formed of polymers of various kind
showing better properties of cold-flexibility and mechanical strength
as well.
Researches have been carried out for long time to provide such a
modifier prepared by mixing different fractions of polyolefins.
A modifier able to improve the properties of the bitumen for the
impermeabilization has been already prepared by mixing and melting at
about 180^oC suitable quantities of atactic polypropylene with the
addition of additives, such as polypropylene wax, with small quantities
of bitumen having the main function of fluidising and dying agent, and
by cooling such a mixture.
However, it has been proved for years that manufacturers of
polypropylene direct their efforts towards greater and greater yields
of isotactic polypropylene to the detriment of the atactic fraction.
This invention seeks to provide a process and a product which can
successfully replace the raw materials used as mentioned above for the
production of conventional modifiers for bitumen.
The process of this invention seeks to replace those polypropylene
fractions (atactic polypropylene) which can be found on the market with
ever-growing difficulty with a mixture of hydrocarbons from the
distillation of crude oil which is destined to form the socalled
"lubricating fraction" of the additive for bitumen. In other words it
is that fraction which distills between 200 and 500^oC in the oil
treatment.
In practice the isotactic polypropylene has been solubilized according
to this invention with different kinds of oil, from the most fluid to
the most viscous, from diathermic oils to piston oils, from lubricating
motor oils to oils for compressors. It was experimentally found that by
using materials thrown on the market with the name of "synthetic oils"
the results could be perfectly compared with those achieved by using
oils from petroliferous products. It was further found that the
previous story of the used oil has no influence (i.e. whether it is
pure, restored or exhausted oil) provided that it has kept its solvent
capability.
It should be appreciated that by mixing suitable quantities of the
above mentioned "lubricating fraction" with isotactic polypropylene a
modifier for bitumen is produced having particular properties, i.e. the
capability of providing a material which is extremely elastic at low
temperatures, even much lower than 0^oC. It was sufficient to add small
quantities of atactic ethylene-propylene copolymer to the preceding
mixtures to provide a modifier repeating or improving the
physical-mechanical properties of the product of the previous art. The
researches have been extended from such first experiments to all the
available polyolefin polymers, in particular to the high and low
density polyethylene, thus detecting that the "lubricating fraction"
showed a remarkable solvent capability and a very good compatibility.
The use of the "lubricating fraction" has been extended with success to
the polyolefin copolymers, polystyrene, polydiene and copolymers
thereof. By using polydiene (natural or synthetic rubber) always
together with the "lubricating fraction" and the isotactic
polypropylene the use of atactic ethylene-propylene copolymers can be
avoided, thus getting away from the by-products of the polymerization
of the isotactic polypropylene.
Among the advantages in the production of a modifier for bitumen
according to this invention besides the above mentioned, non-negligible
possibility of replacing raw materials which are hardly to be found,
following advantages are to be mentioned: the recycle of mineral or
synthetic oils even though they are exhausted, said oils being
available in large quantities; the capability of said oils to attack
the above mentioned polymers which cannot be mixed with bitumen, thus
causing the solubilization thereof; the better use, in the production
of a modifier, of a raw material at the liquid state as far as the
stockage, displacement, mixing and after all every step of the
treatment thereof is concerned.
It should be further appreciated that the advantages coming from the
constant qualities of oils of the "lubricating fraction", unlike the
continuous variability of atactic polypropylene depending on the origin
thereof, allow the quality of the waterproofing sheets as final
products obtained with the bitumen provided with additives according to
the invention to be improved as far as the aging under atmospheric
conditions and the mechanical properties, in particular the
flexibility, is concerned. Therefore, this invention provides a process
for preparing a modifier adapted to improve the properties of bitumen
destined to waterproofing sheeths, impregnating products, conglomerates
and featheredges, comprising following steps: mixing a "lubricating
fraction" formed of either pure or restored or exhausted oils from the
distillation of petroleum or synthetic oils with polymers which can be
attacked by said "lubricating fraction" and mainly consisting of
isotactic polypropylene, polyethylene and mixtures thereof as well as
with other additives consisting of atactic propylene homopolymers and
atactic ethylene-propylene copolymers, polystyrene, polydiene and
bitumen, afterwards socalled "additives"; melting said mixture by
increasing temperature up to about 180^oC; casting and cooling said
mixture in cakes or grains.
The modifier provided by the process of this invention can have
following composition:
lubricating fraction: 1 - 85%
attackable polymers:  1 - 70%
additives:1 - 90%
The selection of specific percent values regarding each component is
depending on the requested modifier, the function performed when mixed
with bitumen as well as particular needs of users.
As a way of example some formulations are indicated:
lubricating fraction: 60 - 80%
attackable polymers:  15 - 30%
additives:5 - 10%
This is a more fluid modifier designed to be used as corrective agent
for harder bitumen.
lubricating fraction: 30 - 55%
attackable polymers:  35 - 50%
additives:10 - 20%
Such modifiers can be used in combination with softer bitumen.