A crosslinkable polymer composition having (a) a polyolefin bearing hydrolysable silane groups and a silanol condensation catalyst compound, as well as to an article, preferably a cable, thereof. A silanol condensation catalyst compound utilized for crosslinking an article, preferably a layer of a c
A crosslinkable polymer composition having (a) a polyolefin bearing hydrolysable silane groups and a silanol condensation catalyst compound, as well as to an article, preferably a cable, thereof. A silanol condensation catalyst compound utilized for crosslinking an article, preferably a layer of a cable.
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1. A power cable which comprises a conductor surrounded by at least one layer comprising a polymer composition which comprises: (a) at least 35 wt % of a polyolefin bearing hydrolysable silane groups and(b) a silanol condensation catalyst compound of formula (I) or (II) MeR1nR2mZo (I),(ZoR2mR1nMe)-
1. A power cable which comprises a conductor surrounded by at least one layer comprising a polymer composition which comprises: (a) at least 35 wt % of a polyolefin bearing hydrolysable silane groups and(b) a silanol condensation catalyst compound of formula (I) or (II) MeR1nR2mZo (I),(ZoR2mR1nMe)-R3-(MeR1nR2mZo) (II), wherein in formula (I) Me is a transition metal of group 4 of Periodic Table of the Elements (according to IUPAC nomenclature of inorganic industry 1989);n is an integer between 0 to 3;m is an integer between 0 to 4,o is an integer between 0 to 4, wherein n+m+o is 4, and at least m or o is other than 0;each R1 independently is substituted or unsubstituted saturated or partially unsaturated hydrocarbyl group which optionally contains one or more heteroatom(s), or a substituted or unsubstituted aromatic hydrocarbyl group which optionally contains one or more heteroatom(s); andeach R2 independently is substituted or unsubstituted saturated or partially unsaturated hydrocarbyl group which optionally contains one or more heteroatom(s), or a substituted or unsubstituted aromatic hydrocarbyl group which optionally contains one or more heteroatom(s); or is a group hydrolysable to a Brönsted acid; provided that if o is 0, then at least one R2 is a group hydrolysable to a Brönsted acid; or R1 and R2, or two R1 groups or two R2 groups form together with Me a ring system; each Z is independently a halogen atom; or wherein in formula (II),Me and R1 have the meaning as defined in formula (I) above, and R2 has the meaning as defined in formula (I) above, but without the above proviso;n is an integer between 0 to 3m is an integer between 0 to 3o is an integer between 0 to 3, wherein n+m+o is 3; andR3 independently has the meaning as defined for R1 in formula (I) above or R2 in formula (I) above, but without the above proviso. 2. A power cable according to claim 1, wherein in compounds (I) and (II) Me is Ti, Zr or Hf. 3. A power cable according to claim 1, wherein in compounds of formula (I): n is 1 to 3; m is 1 to 3 and, o is 0 or 1; and wherein in compounds of formula (II): n is 1 to 3; m is 1 to 3 and, o is 0 or 1. 4. A power cable according to claim 1, wherein in compounds (I) and (II) the heteroatom is selected from O, S, P, N, Si, B or halogen. 5. A power cable according to claim 1, wherein in compounds (I) and (II) each R1 is independently —Xw—R1, wherein w is 0 or 1; X is a heteroatom selected from O, S, P, N, Si, B or halogen; and R1 is is selected a linear or branched (C1-C50)alkyl group, a linear or branched (C1-C30)alkyl group, a linear or branched (C1-C20)alkyl group; or a linear or branched (C1-C20)alkyl(O—(C1-C20)alkyl)p, (C1-C20)alkyl(O—(C1-C20)alkenyl)p or (C1-C20)alkyl-O(C1-C20)alkyl)e(C1-C20)alkenyl)f, wherein each p is independently 1, 2 or 3, e is 0, 1 or 2 and f is 0, 1 or 2; or a linear or branched (C1-C12)alkyl(O—(C1-C12)alkyl)p or (C1-C12)alkyl(O—(C1-C12)alkenyl)p, wherein each p is independently 1 or 2. 6. A power cable according to claim 1, wherein in compounds (I) and (II) at least 1 of R2 is independently Y—R2; Y is —OC(═O)—, —C(═O)—O—C(═O)—, —NR4C(═O)—, —OC(═O)NR4—, —OC(═O)O—, —NR4C(═O)OR—, —C(═O)NC(═O)—, —OS(═O)2—, —OP(═O)2—, —NR4S(═O)2, —OS(═O)2NR4, —SC(═O)—, —OPR5(═O)O, —OP(═O)(OR5)O—, or —OPR5(═O)OP(═O)(OR2)O—, wherein each R4 independently is H or a (C1-C8)alkyl group; and each R5 independently is H or R2; and each R2 moiety is independently a substituted or unsubstituted saturated or partially unsaturated hydrocarbyl group which optionally contains one or more heteroatom(s); or a substituted or unsubstituted aromatic hydrocarbyl group which optionally contains one or more heteroatom(s). 7. A power cable according to claim 1, wherein the (b) silanol condensation catalyst compound of formula (I) or (II) is a subgroup (Ia) of the compounds of formula (I), wherein Me is Ti, Zr or Hf; n is 1 or 2; m is 2 or 3; o is 0;each R1 is -Xw-R1, wherein w is 0 or 1; X is O, S, P, N or Si; R1 moiety is selected from an optionally substituted linear or branched, saturated or partially unsaturated hydrocarbyl group, a linear or branched (C1-C50)alkyl group;a linear or branched (C1-C20)alkyl(O—(C1-C20)alkyl)p, (C1-C20)alkyl(O—(C1-C20)alkenyl)p or (C1-C20)alkyl-O(C1-C20)alkyl)e(C1-C20)alkenyl)f, wherein each p is independently 1, 2 or 3, e is 0, 1 or 2 and f is 0, 1 or 2; andeach R2 is independently selected froma) —OC(═O)—R2, —OP(═O)2—R2, —OPR5(═O)OP(═O)(O—R2)2 (wherein R5 is H), or —OP(═O)(OR5)O—R2, —OC(═O)—R2 or —OPR5(═O)OP(═O)(O—R2)2 (wherein R5 is H); and each R2 is independently selectedfrom a substituted or unsubstituted saturated or partially unsaturated hydrocarbyl group which optionally contains one or more heteroatom(s) an optionally substituted linear or branched hydrocarbyl group; an optionally substituted linear or branched (C1-C50)alkyl group, an optionally substituted linear or branched (C2-C50)alkenyl group or an optionally substituted linear or branched (C2-C30)alkynyl group; a linear or branched (C1-C50)alkyl group, a linear or branched (C1-C30)alkyl group, linear or branched (C1-C20)alkyl group, and linear or branched (C1-C12)alkyl group; orfrom an optionally substituted mono or polycyclic aryl group which has 6 to 12 carbon atoms and which contains one or more heteroatoms an optionally substituted mono or polycyclic aryl group with carbon ring atoms, an optionally substituted phenyl group or a naphthyl group, a phenyl group, and wherein the aromatic hydrocarbyl group is substituted with 1 to 4 substituent(s), which are each independently selected from linear or branched, saturated or partially unsaturated hydrocarbyl group, linear or branched (C1-C50)alkyl groups, linear or branched (C1-C30)alkyl groups, from linear or branched (C1-C20)alkyl groups, and linear or branched (C1-C12)alkyl group; linear or branched (C1-C20)alkyl group, and each R2 moiety is independently selected from linear or branched (C1-C12)alkyl group;or(b) R2 is —OS(═O)2—R2; and R2 moiety is selectedfrom an optionally substituted linear or branched (C2-C50)alkenyl group or an optionally substituted linear or branched (C2-C30)alkynyl group; a linear or branched (C1-C50)alkyl group, a linear or branched (C1-C30)alkyl group, linear or branched (C1-C20)alkyl group, and linear or branched (C1-C12)alkyl group; orfrom an optionally substituted mono or polycyclic aryl group which has 6 to 12 carbon atoms and which contains one or more heteroatoms as defined above, an optionally substituted mono or polycyclic aryl group with carbon ring atoms, an optionally substituted phenyl group or a naphthyl group, more preferably a phenyl group, and wherein the aromatic hydrocarbyl group is substituted with 1 to 4, substituent(s), which are each independently selected from linear or branched, saturated or partially unsaturated hydrocarbyl group front linear or branched (C1-C50)alkyl groups, from linear or branched (C1-C30)alkyl groups, linear or branched (C1-C20)alkyl groups, and from linear or branched (C1-C12)alkyl group. 8. A power cable according to claim 1 in which the (b) silanol condensation catalyst compound of formula (I) or (II) is present in an amount of 0.0001 to 6.0 wt %, based on the combined amount of the polyolefin bearing hydrolysable silane groups (a) and the silanol condensation catalyst compound (b). 9. A power cable according to claim 1, wherein the silanol condensation catalyst compound is according to formula (I). 10. A power cable according to claim 1, wherein the polyolefin bearing hydrolysable silane groups (a) is a copolymer of olefin with a silane group(s) bearing comonomer, and, optionally, with other comonomer(s); or is a homopolymer or copolymer of olefin with silane groups which are introduced by grafting a silane group(s) containing compound to the polyolefin polymer. 11. A power cable according to claim 1, wherein the polyolefin bearing hydrolysable silane groups (a) is a polypropylene or polyethylene, a polyethylene produced in a the presence of an olefin polymerisation catalyst or a polyethylene produced in a high pressure process, which bears hydrolysable silane groups. 12. A power cable according to claim 1, wherein the polymer composition comprises hydrolysable silane groups in an amount of from 0.001 to 12 mol %, based on the total amount of the polymer composition. 13. A power cable selected from cable (A) comprising a conductor surrounded by at least an insulating layer comprising, a polymer composition which comprises (a) at least 35 wt % of a polyolefin bearing hydrolysable silane groups and(b) a silanol condensation catalyst compound of formula (I) or (II), orcable (B) comprising a conductor surrounded by an inner semiconductive layer, an insulating layer and an outer semiconductive layer, wherein at least one layer, preferably at least the insulation layer, comprises, preferably consists of, the polymer composition which comprises (a) at least 35 wt % of a polyolefin bearing hydrolysable silane groups and(b) a silanol condensation catalyst compound of formula (I) or (II),wherein formula (I) and (II) are MeR1nR2mZo (I),(ZoR2mR1nMe)-R3-(MeR1nR2mZo) (II),wherein in formula (I) Me is a transition metal of group 4 of Periodic Table of the Elements;n is an integer between 0 to 3;m is an integer between 0 to 4,o is an integer between 0 to 4, wherein n+m+o is 4, and at least m or o is other than 0;each R1 independently is substituted or unsubstituted saturated or partially unsaturated hydrocarbyl group which optionally contains one or more heteroatom(s), or a substituted or unsubstituted aromatic hydrocarbyl group which optionally contains one or more heteroatom(s); andeach R2 independently is substituted or unsubstituted saturated or partially unsaturated hydrocarbyl group which optionally contains one or more heteroatom(s), or a substituted or unsubstituted aromatic hydrocarbyl group which optionally contains one or more heteroatom(s); or is a group hydrolysable to a Brönsted acid; provided that if o is 0, then at least one R2 is a group hydrolysable to a Brönsted acid; or R1 and R2, or two R1 groups or two R2 groups form together with Me a ring system;each Z is independently a halogen atom; or wherein in formula (II),Me and R1 have the meaning as defined in formula (I) above, and R2 has the meaning as defined in formula (I) above, but without the above proviso;n is an integer between 0 to 3m is an integer between 0 to 3o is an integer between 0 to 3, wherein n+m+o is 3; andR3 independently has the meaning as defined for R1 in formula (I) above or R2 in formula (I) above, but without the above proviso. 14. A process for producing a power cable, whereby the process comprises the step of applying on a conductor by (co)extrusion, one or more layers, wherein at least one layer comprises a polymer composition which comprises (a) at least 35 wt % of a polyolefin bearing hydrolysable silane groups and (b) a silanol condensation catalyst compound of formula (I) or (II), for producing (i) a cable (A), wherein the process comprises the steps of applying on a conductor by (co)extrusion, at least an insulation layer comprising a polymer composition which comprises(a) at least 35 wt % of a polyolefin bearing hydrolysable silane groups and(b) a silanol condensation catalyst compound of formula (I) or (II), or (ii) a cable (B), wherein the process comprises the steps of applying on a conductor by (co)extrusion, an inner semiconductive layer comprising a first semiconductive composition, an insulation layer comprising an insulation composition and an outer semiconductive layer comprising a second semiconductive composition, in that order, wherein the composition of at least one layer, comprises, a polymer composition which comprises(a) at least 35 wt % of a polyolefin bearing hydrolysable silane groups and(b) a silanol condensation catalyst compound of formula (I) or (II) wherein formula (I) and (II) are MeR1nR2mZo (I),ZoR2mR1nMe)-R3-(MeR1nR2mZo) (II), wherein in formula (I) Me is a transition metal of group 4 of Periodic Table of the Elements;n is an integer between 0 to 3;m is an integer between 0 to 4,o is an integer between 0 to 4, wherein n+m+o is 4, and at least m or o is other than 0;each R1 independently is substituted or unsubstituted saturated or partially unsaturated hydrocarbyl group which optionally contains one or more heteroatom(s), or a substituted or unsubstituted aromatic hydrocarbyl group which optionally contains one or more heteroatom(s); andeach R2 independently is substituted or unsubstituted saturated or partially unsaturated hydrocarbyl group which optionally contains one or more heteroatom(s), or a substituted or unsubstituted aromatic hydrocarbyl group which optionally contains one or more heteroatom(s); or is a group hydrolysable to a Brönsted acid; provided that if o is 0, then at least one R2 is a group hydrolysable to a Brönsted acid; or R1 and R2, or two R1 groups or two R2 groups form together with Me a ring system; each Z is independently a halogen atom; or wherein in formula (II),Me and R1 have the meaning as defined in formula (I) above, and R2 has the meaning as defined in formula (I) above, but without the above proviso;n is an integer between 0 to 3m is an integer between 0 to 3o is an integer between 0 to 3, wherein n+m+o is 3; andR3 independently has the meaning as defined for R1 in formula (I) above or R2 in formula (I) above, but without the above proviso. 15. The process according to claim 14 wherein the process comprises a further step of crosslinking the obtained at least one layer comprising a polymer composition in the presence of water, by (i) crosslinking the insulation composition of the insulation layer of the cable (A) in the presence of water, or(ii) crosslinking at least one of the insulation composition of the insulation layer, the first semiconductive composition of the inner semiconductive layer or the second semiconductive composition of the outer semiconductive layer of the cable (B),in the presence of water. 16. A crosslinked power cable obtainable by the process according to claim 15. 17. A master batch comprising (i) a liquid or solid carrier polyolefin which is a polyethylene or polypropylene, wherein the amount of the carrier polyolefin is 30 wt % or more, based on the total amount of the master batch;(ii) a silanol condensation catalyst compound of formula (I) or (II) in an amount of 0.7 to 15 wt % based on the total amount of the masterbatch, and(iii) optionally a further component(s) selected from further polymer component(s), additive(s), filler(s) or colorant(s), or any mixtures thereof wherein formula (I) and (II) are MeR1nR2mZo (I),(ZoR2mR1nMe)-R3-(MeR1nR2mZo) (II), wherein in formula (I) Me is a transition metal of group 4 of Periodic Table of the Elements;n is an integer between 0 to 3;m is an integer between 0 to 4,o is an integer between 0 to 4, wherein n+m+o is 4, and at least m or o is other than 0;each R1 independently is substituted or unsubstituted saturated or partially unsaturated hydrocarbyl group which optionally contains one or more heteroatom(s), or a substituted or unsubstituted aromatic hydrocarbyl group which optionally contains one or more heteroatom(s); andeach R2 independently is substituted or unsubstituted saturated or partially unsaturated hydrocarbyl group which optionally contains one or more heteroatom(s), or a substituted or unsubstituted aromatic hydrocarbyl group which optionally contains one or more heteroatom(s); or is a group hydrolysable to a Brönsted acid; provided that if o is 0, then at least one R2 is a group hydrolysable to a Brönsted acid; or R1 and R2, or two R1 groups or two R2 groups form together with a ring system; each Z is independently a halogen atom; or wherein in formula (II),Me and R1 have the meaning as defined in formula (I) above, and R2 has the meaning as defined in formula (I) above, but without the above proviso;n is an integer between 0 to 3m is an integer between 0 to 3o is an integer between 0 to 3, wherein n+m+o is 3; and R3 independently has the meaning as defined for R1 in formula (I) above or R2 in formula (I) above, but without the above proviso.
Yoshida Yoshie,JPX ; Mizutani Toshikazu,JPX ; Kitagawa Masaki,JPX ; Deguchi Jichio,JPX, Semiconductive resin composition and process for producing the same.
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