Catalyst – solid sorbent – or support therefor: product or process – Catalyst or precursor therefor – Plural component system comprising a - group i to iv metal...
Reexamination Certificate
1997-06-12
2001-10-09
Wu, David W. (Department: 1713)
Catalyst, solid sorbent, or support therefor: product or process
Catalyst or precursor therefor
Plural component system comprising a - group i to iv metal...
C502S105000, C502S104000, C502S129000, C502S134000, C526S142000, C526S209000, C526S348000
Reexamination Certificate
active
06300273
ABSTRACT:
The present invention relates to catalysts for the polymerization of ethylene and its mixtures with olefins CH
2
═CHR
VIII
, wherein R
VIII
is an alkyl, cycloalkyl or aryl radical having 1-12 carbon atoms, comprising the reaction product of a solid catalyst component containing Ti, Mg and halogen, an alkyl-Al compound and a particular electron donor compound. The catalyst of the invention is suitably used in (co)polymerization processes of ethylene to prepare (co)polymers having narrow Molecular Weight Distribution (MWD). The MWD is an important characteristic of ethylene polymers in that it affects both the rheological behaviour, and therefore the processability, and the final mechanical properties. In particular, in the case of LLDPE, polymers with narrow MWD are suitable for films and injection molding in that deformation and shrinkage problems in the manufactured article are minimized.
The width of the molecular weight distribution for the ethylene polymers is generally expressed as melt flow ratio F/E, which is the ratio between the melt index measured by a load of 21.6 Kg (melt index F) and that measured with a load of 2.16 Kg (melt index E). The measurements of melt index are carried out according to ASTM D-1238 and at 190° C.
A catalyst for preparing ethylene (co)polymers having narrow MWD is described in the European patent application EP-A-373999: the catalyst comprises a solid catalyst component consisting of a titanium compound supported on magnesium chloride, an alkyl-Al compound and an electron donor compound (external donor) selected from monoethers of the formula R′OR″. Good results in terms of narrow MWD are only obtained when the solid component also contains an internal electron donor compound(diisobutylphthalate).
New catalysts for the polymerization of ethylene and mixtures thereof with one or more olefins CH
2
═CHR
VIII
have been now found, which comprise particular external electron donor compounds and are particularly suitable for the preparation of ethylene (co)polymers with narrow MWD. Furthermore, when the catalysts of the invention are used for the preparation of LLDPE, the products obtained are characterized by a low content of xilene soluble fractions, a property which makes them particularly interesting for applications such as films and materials for the foodstuffs sector. Moreover, the polymers obtained with the catalyst of the invention show interesting rheological properties in that the intrinsic viscosity of the soluble fractions has relatively high values, thus improving the processability of the polymers. In particular, remarkable improvements are found in the processes for preparing very low density ethylene copolymers (VLDPE and ULDPE) wherein the reactor fouling phenomena are significantly reduced. The catalysts of the invention comprise the reaction product of:
(a) a solid catalyst component comprising a magnesium halide in the active form and a titanium compound containing at least one Ti-halogen bond;
(b) an alkyl-Al compound;
(c) an electron donor compound selected from compounds containing at least two oxygen atoms bonded to different carbon atoms, said compounds being reactive with MgCl
2
but not with triethyl-Al under standard conditions.
Preferably the electron donor compound (c) is a diether and in particular a 1,3-diether.
The reactivity test of compound (c) with respect to triethyl-aluminium is carried out using a potentiometer METROHM mod. E 536, equipped with titration table E 535, an automatic burette E 552, a magnetic stirrer E 549 and a titration cell EA 880. A combined electrode EA 281 (Pt/Ag/AgCl/KCl 3M) is used. As titrating agent a 0.5 M AlEt
3
hexane solution is used, which is added to a 0.5 molar benzene solution of the compound to be tested, operating at room temperature and under nitrogen atmosphere. The compound (c) does not show an appreciable variation or jump of potential at the titration equivalence point. The reactivity test of the electron donor compound (c) with MgCl
2
is carried out under the following conditions: into a 100 cm
3
glass reactor equipped with mechanical stirrer, 70 cm
3
of n-heptane, 12 mmols of anhydrous MgCl
2
activated as hereinbelow described, 2 mmols of electron donor compound (c) are introduced. The mixture is heated at 60° C. for 4 hours (stirring speed 100 r.p.m.), then is filtered off and washed at room temperature with 100 cm
3
of n-heptane and dried. The amount of the compound (c) complexed is determined by treatment of the solid with 100 cm
3
of ethyl alcohol and gaschromatographic analysis of the solution. The magnesium chloride used in the standard test is prepared as follows: into a 1 litre vibrating mill (Siebtechnik's Vibratom) containing 1.8 Kg of 16 mm diameter stell balls, 50 g of anhydrous MgCl
2
and 6.8 cm
3
of 1,2-dichloroethane are introduced under a nitrogen atmosphere. The mixture is milled at room temperature for 96 hours and the solid obtained is dried at 50° C. for 16 hours under vacuum.
The magnesium halide present in the solid component (a) is preferably magnesium chloride in the active form. The active form of magnesium chloride used in the preparation of solid catalyst components for the polymerization of olefins is well-known in the art. It was first described in U.S. Pat. No. 4,495,338 and U.S. Pat. No. 4,476,289 as being characterized by X-ray spectrum wherein the most intense diffraction line appearing in the spectrum of the non active chloride is diminished in intensity and in said spectrum a halo appears, the maximum intensity of which is shifted towards lower angles in comparison to that of the most intense line.
Among the titanium compounds containing at least one Ti-halogen bond, those having the formula Ti(OR
VIII
)
n−y
X
y
, wherein R
VIII
is a hydrocarbyl radical having 1-12 carbon atoms or a COR
VIII
group, n is the titanium valence and y is a number comprised between 1 and n, are preferred.
The solid component (a) can be suitably prepared by reaction between a titanium compound of the formula Ti(OR
VIII
)
n−m
X
m
, wherein n is the valence of titanium and m is a number comprised between 0 and n, and a magnesium chloride obtained by dealcoholation of an adduct MgCl
2
.pR
VIII
OH, wherein p is a number from 1 to 6 and R
VIII
is a hydrocarbyl radical having 1-12 carbon atoms. Optionally the reaction can be carried out in the presence of a halogenating compound or a reducing compound or a mixture of the two, or a compound having both halogenating and reducing activity.
Examples of preparation of the solid catalyst component are described in U.S. Pat. Nos. 4,218,339 and 4,472,520, the description of which is herein included as reference. Solid components of the catalyst can also be prepared according to the methods described in U.S. Pat. Nos. 4,748,221 and 4,803,251. Particulary preferred are the catalyst components endowed with regular morphology, for example spherical or spheroidal. Examples of said components are described in U.S. Pat. No. 4,399,054 and in patent applications EP-A-395083, EP-A-553805, EP-A-553806, EP-A-601525 and EP-A-604846, the description of which is herein included as reference.
The alkyl aluminium compound (b) is preferably selected from aluminium trialkyls, such as trimethyl-Al, triethyl-Al, triisobutyl-Al, tri-n-butyl-Al, tri-n-octyl-Al. Mixture of Al-trialkyls with Al-alkylhalides or Al-alkylsesquihalides such as AlMe
2
Cl, AlEt
2
Cl and Al
2
Et
3
Cl
3
can be used as well as compounds containing two or more Al atoms linked together by O, N atoms or SO
3
or SO
4
groups.
The electron donor compound (c) is preferably selected from 1,3-diethers of the formula (I)
wherein R, R
I
, R
II
, R
III
, R
IV
, R
V
, same or different from each other, are hydrogen or linear or branched alkyl radicals, cycloalkyl, aryl, alkylaryl or arylalkyl radicals having 1-18 carbon atoms, with the provision that R and R
I
cannot both be hydrogen; R
VI
and R
VII
, same or different from each other, are linear or branched alkyl radicals, cycloalkyl, aryl, alkylaryl or arylalkyl radicals ha
Cuffiani Illaro
Sacchetti Mario
Basell Technology Company B.V.
Cave LLP Bryan
Choi Ling-Siu
Wu David W.
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