Laser printer systems, intermediate transfer members, primer layers for intermediate transfer members, and primer layer compositions

At least the following is claimed: 1. An intermediate transfer member comprising: an intermediate transfer member base; an acrylic rubber layer disposed on the intermediate transfer member base; a primer layer disposed on the acrylic rubber layer, wherein the primer layer is made from a primer layer composition that includes a silane compound, an alkenylsilane compound, a first crosslinker comprising a dimethylsiloxane methylhydrosiloxane copolymer with dimethylhydrosilyl end groups, and a titanium catalyst, wherein the silane compound is described by the formula (X—R1) a R2 b Si(OR3) 4-a-b , wherein R1 is a divalent hydrocarbon group having from 1 to 4 carbon atoms, wherein R2 and R3 each represent a monovalent hydrocarbon group having from 1 to 4 carbons atom, wherein X represents an epoxycyclohexyl group, wherein “a” is one to three and “b” is zero to two, with the proviso that a+b is 1, 2, or 3 wherein the primer layer is anchored to the acrylic rubber layer by a reaction product between a Si—H group of a methylhydrosiloxane unit or dimethylhydrosilyl end group of the dimethylsiloxane methylhydrosiloxane copolymer with dimethylhydrosilyl end groups and a carboxylic function in the acrylic rubber; and an addition cure RTV silicone layer disposed on the primer layer, wherein the primer layer substantially eliminates a poisoning of a platinum catalyst in the addition cure RTV silicone layer by the acrylic rubber layer and wherein the addition cure RTV silicone layer comprises a second crosslinker, the second crosslinker selected from: dimethylsiloxane methylhydrosiloxane copolymer with trimethylsilyl endgroups or dimethylsiloxane methylhydrosiloxane copolymer with dimethylhydrosilyl endgroups. 2. The intermediate transfer member of claim 1 , wherein the alkenylsilane compound is selected from: an allyl silane, a silane compound including an unsaturation, and polymeric forms of each. 3. The intermediate transfer member of claim 1 , wherein the titanium catalyst comprises titanium acetylacetonate. 4. The intermediate transfer member of claim 1 , wherein the silane compound is about 20 to 80 weight % of the primer layer composition, the alkenylsilane compound is about 20 to 80 weight % of the primer layer composition, the first crosslinker is about 2 to 50 weight % of the primer layer composition, and the titanium catalyst is about 1 to 20 weight % of the primer layer composition. 5. The intermediate transfer member of claim 1 , wherein the primer layer has a thickness of about 0.01 to 1 micron. 6. The intermediate transfer member of claim 1 , wherein the addition cure RTV silicone layer comprises: polydimethylsiloxane dimethylvinylsilyl terminated of viscosity of 500-5000 cP; dimethylsiloxane methylhydrosiloxane copolymers with trimethylsilyl endgroups; hydrosilylation catalyst comprising platinum; and hydrosilylation inhibitor. 7. The intermediate transfer member of claim 1 , in which the addition cure RTV silicone layer comprises: 100 parts polydimethylsiloxane dimethylvinylsilyl terminated of viscosity of 500-5000 cP; 3-10 parts dimethylsiloxane methylhydrosiloxane copolymers with trimethylsilyl endgroups; 0.2-2 parts hydrosilylation catalyst comprising platinum 1-5 parts hydrosilylation inhibitor; and 1-20 parts vinyl resin, where parts are parts per weight per 100 parts polydimethylsiloxane dimethylvinylsilyl terminated of viscosity of 500-5000 cP. 8. The intermediate transfer member of claim 1 , in which the addition cure RTV silicone layer comprises a thickness between 3-10 microns. 9. A method of forming an intermediate transfer member layer having a base and an acrylic rubber layer comprising: providing an acrylic rubber material; disposing the acrylic rubber material on the base to form the acrylic rubber layer, the acrylic rubber layer comprising a non-cured state; providing a primer layer material that includes a silane compound, an alkenylsilane compound, a crosslinker comprising a dimethylsiloxane methylhydrosiloxane copolymer with dimethylhydrosilyl end groups, and a titanium catalyst, wherein the silane compound is described by the formula (X—R1) a R2 b Si(OR3) 4-a-b , wherein R1 is a divalent hydrocarbon group having from 1 to 4 carbon atoms, wherein R2 and R3 each represent a monovalent hydrocarbon group having from 1 to 4 carbons atom, wherein X represents a glycidoxy group or an epoxycyclohexyl group, wherein “a” is two or three and “b” is zero to two, with the proviso that a+b is 2 or 3; disposing the primer layer material on the acrylic rubber layer while the acrylic rubber layer is in the non-cured state; drying the primer layer material on the acrylic rubber layer to form a primer layer wherein the primer layer is anchored to the acrylic rubber layer by a reaction product between a Si—H group of a methylhydrosiloxane unit or dimethylhydrosilyl end group of the dimethylsiloxane methylhydrosiloxane copolymer with dimethylhydrosilyl end groups and a carboxylic function in the acrylic rubber; disposing an addition cure RTV silicone layer material comprising a platinum catalyst on the primer layer; and curing the addition cure RTV silicone layer material on the primer layer to form an addition cure RTV silicone layer, wherein the primer layer substantially eliminates a poisoning of the addition cure RTV silicone layer by the acrylic rubber layer. 10. The method of claim 9 , in which the non-cured state of the acrylic rubber layer comprises active chlorine and carboxylic groups, in which drying the primer layer material on the acrylic rubber layer to form a primer layer comprises forming bonds between Si—H groups in the primer layer and carboxylic groups contained in the acrylic rubber layer. 11. The method of claim 9 , wherein the alkenylsilane compound is selected from: an allyl silane, a silane compound including an unsaturation, and polymeric forms of each. 12. The method of claim 9 , wherein the titanium catalyst comprises titanium acetylacetonate. 13. The method of claim 9 , wherein the silane compound is about 20 to 80 weight % of the primer layer material, the alkenylsilane compound is about 20 to 80 weight % of the primer layer material, the crosslinker is about 2 to 50 weight % of the primer layer material, and the titanium catalyst is about 1 to 20 weight % of the primer layer material. 14. The method of claim 9 , wherein the primer layer has a thickness of about 0.01 to 1 micron. 15. The method of claim 9 , in which the addition cure RTV silicone layer comprises: 100 parts polydimethylsiloxane dimethylvinylsilyl terminated of viscosity of 500-5000 cP; 3-10 parts dimethylsiloxane methylhydrosiloxane copolymers with trimethylsilyl endgroups; 0.2-2 parts hydrosilylation catalyst comprising platinum 1-5 parts hydrosilylation inhibitor; and 1-20 parts vinyl resin, where parts are parts per weight per 100 parts polydimethylsiloxane dimethylvinylsilyl terminated of viscosity of 500-5000 cP. 16. An intermediate transfer member comprising: an intermediate transfer member base; an acrylic rubber layer disposed on the intermediate transfer member base; a primer layer disposed on the acrylic rubber layer, wherein the primer layer is made from a primer layer composition that includes a silane compound, an alkenylsilane compound, a crosslinker comprising a dimethylsiloxane methylhydrosiloxane copolymer with dimethylhydrosilyl end groups, and a titanium catalyst, wherein the silane compound is described by the formula (X—R1) a R2 b Si(OR3) 4-a-b , wherein R1 is a divalent hydrocarbon group having from 1 to 4 car