The present invention relates to a polyolefin composition comprising (A) a crosslinkable polyolefin with hydrolysable silane groups which upon hydrolysation form an acid or a base, characterised in that the acid or base generates a gel content of at least 40% after 40 hours in the 90° C. cross-linki
The present invention relates to a polyolefin composition comprising (A) a crosslinkable polyolefin with hydrolysable silane groups which upon hydrolysation form an acid or a base, characterised in that the acid or base generates a gel content of at least 40% after 40 hours in the 90° C. cross-linking test, wherein the acid or base is added in an amount of 4.5 mmol/kg to an ethylene/vinyltrimethoxysilane copolymer with a MFR2=2 g/10 min, a density of 923 g/cm3, and 2 wt. % of vinyltrimethoxysilane and then is cross-linked in a waterbath at 90° C., and to a polyolefin composition comprising (i) a crosslinkable polyolefin with hydrolysable silane groups, and (ii) a non-polymeric compound with hydrolysable silane groups which upon hydrolysation form an acid or a base, characterised in that the acid or base generates a gel content of at least 40% after 40 hours in the 90° C. cross-linking test, wherein the acid or base is added in an amount of 4.5 mmol/kg to an ethylene/vinyltrimethoxysilane copolymer with a MFR2=2 g/10 min, a density of 923 g/cm3, and 2 wt. % of vinyltrimethoxysilane and then is cross-linked in a waterbath at 90° C.
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1. A polyolefin composition comprising (i) a crosslinkable polyolefin with hydrolysable silane groups, the crosslinkable polyolefin being prepared from a hydrolysable silane compound represented by Formula (II): CH2═CHSi(OA)3 (II) wherein A is a hydrocarbyl group having 1-8 carbon atoms; and (ii) a
1. A polyolefin composition comprising (i) a crosslinkable polyolefin with hydrolysable silane groups, the crosslinkable polyolefin being prepared from a hydrolysable silane compound represented by Formula (II): CH2═CHSi(OA)3 (II) wherein A is a hydrocarbyl group having 1-8 carbon atoms; and (ii) a non-polymeric compound with hydrolysable silane groups which upon hydrolysation form an acid or a base, wherein the non-polymeric compound has 50 repeating units or less, and is represented by Formula (III): R1SiR2R3R4 (III)wherein R1 is a non-hydrolysable hydrocarbyl group which comprises 2 to 30 carbon atoms, which further comprises at least one unsaturated group, and optionally contains heteroatoms; andR2, R3, and R4 are organic residues which may be the same or different from each other with the proviso that at least one thereof is an acyloxy group that will generate a carboxylic acid upon hydrolysation or is an amino group that will generate an amine upon hydrolysation;characterised in that the carboxylic acid or amine is one which generates a gel content of at least 40% after 40 hours in a 90 ° C. cross-linking test which is conducted as follows: a copolymer of ethylene and vinyltrimethoxysilane having a MFR2 (2.16 kg, 190° C.) of 2 g/10 min, a density of 923 g/cm3, and 2 wt.% of vinyltrimethoxysilane is provided, to which the carboxylic acid or amine is added in an amount of 4.5 mmol/kg to form a crosslinkable composition, said crosslinkable composition is formed to a tape of 1.7 mm thickness, and said tape is cross-linked in a waterbath at a temperature of 90 ° C. 2. An article comprising the polyolefin composition according to claim 1. 3. A method for forming a silanol condensation catalyst by hydrolysing a non-polymeric compound with hydrolysable silane groups in a polyolefin composition, wherein the hydrolysable silane groups form an acid or a base upon hydrolysation which acts in hydrolysed form as a silanol condensation catalyst and wherein the polyolefin composition comprises: (A) a crosslinkable polyolefin with hydrolysable silane groups, the crosslinkable polyolefin being prepared from a hydrolysable silane compound represented by Formula (II): CH2═CHSi(OA)3 (II)wherein A is a hydrocarbyl group having 1-8 carbon; and(B) a non-polymeric compound with hydrolysable silane groups, wherein the non-polymeric compound has 50 repeating units or less, and is represented by Formula (III): R1SiR2R3R4 (III)wherein R1 is a non-hydrolysable hydrocarbyl group which comprises 2 to 30 carbon atoms, which further comprises at least one unsaturated group, and which may contain heteroatoms; andR2, R3, and R4 are organic residues which may be the same or different from each other with the proviso that at least one thereof is an acyloxy group that will generate a carboxylic acid upon hydrolysation or is an amino group that will generate an amine upon hydrolysation. 4. Polyolefin composition according to claim 1 which further comprises a polyolefin with polar groups. 5. Polyolefin composition according to claim 1 wherein the acid or base formed upon hydrolysation is selected from the group of carboxylic acids, sulphonic acids, phosphorous acids, halogen acids, oxoacids, oximes, imines and amines. 6. Polyolefin composition according to claim 1 wherein the crosslinkable polyolefin with hydrolysable silane groups comprises a polyethylene with hydrolysable silane groups. 7. Polyolefin composition according to claim 1 wherein in the crosslinkable polyolefin with hydrolysable silane groups are present in a total amount of 0.001 to 15 wt. %. 8. Polyolefin composition according to claim 1 wherein the crosslinkable polyolefin with hydrolysable silane groups also contains polar groups.
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이 특허에 인용된 특허 (13)
Keogh Michael J. (Bridgewater NJ), Compositions based on thermoplastic polymers and metal carboxylate silanol condensation catalysts.
Lewis Thomas E. (E. Hampstead NH) Davidson Bradley W. (Merrimack NH) Williams Richard A. (Hampstead NH) Nowak Michael T. (Gardner MA) Kline John F. (Hudson NH), Lithographic plates made by spark discharges.
Keogh Michael J. (Bridgewater NJ) Williams Gary H. (Somerville NJ), Scorch resistant compositions based on water-curable thermoplastic polymers having hydrolyzable, pendant silane moieties.
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