Printing form precursor having elastomeric cap layer and a method of preparing a printing form from the precursor

What is claimed is: 1. A method to prepare a relief printing form comprising: I) providing a printing form precursor comprising: a) a layer of a photopolymerizable composition sensitive to actinic radiation, the photopolymerizable composition comprising a binder, a monomer, and a photoinitiator; b) a layer of an elastomeric composition, that is or becomes sensitive to the actinic radiation, comprising at least an elastomeric binder, and particulate, the elastomeric composition having an index of refraction; wherein the particulate is selected from polyamide, polymethylmethacrylate, feldspar, or nepheline syenite, the particulate having an average diameter from 1 to 10 micron, an index of refraction that is ±0.04 of the index of refraction of the elastomeric composition, and is present at 5-40% by weight based on the total weight of the elastomeric composition; and c) an actinic radiation opaque layer on, adjacent, or disposed above the elastomeric layer b) opposite the photopolymerizable layer a), that is capable of forming an in-situ mask; II) forming an in-situ mask by imagewise exposing the actinic radiation opaque layer with laser radiation; III) overall exposing the precursor of step II) to actinic radiation through the in-situ mask, forming polymerized portions and unpolymerized portions in the photopolymerizable layer and the elastomeric layer; and IV) treating the precursor of III) to remove unpolymerized portions and form a relief surface suitable for printing. 2. The method of claim 1 wherein the treating step IV) is selected from IV 1) processing with at least one washout solution selected from the group consisting of solvent solution, aqueous solution, semi-aqueous solution, and water; or IV 2) heating the precursor of III) to a temperature sufficient to cause the unpolymerized portions to melt, flow, or soften, and removing the unpolymerized portions. 3. The method of claim 1 wherein the overall exposing of the precursor to actinic radiation through the in-situ mask occurs in the presence of atmospheric oxygen. 4. The method of claim 1 wherein the overall exposing of the precursor to actinic radiation through the in-situ mask occurs in an environment comprising an inert gas and a concentration of oxygen between 190,000 and 100 parts per million. 5. A process for forming a printing plate precursor comprising: A) forming a multilayer cover element comprising applying a layer of an actinic radiation opaque material onto a temporary coversheet; and, applying a layer of an elastomeric composition on or adjacent the actinic radiation opaque layer, wherein the elastomeric composition is or becomes sensitive to actinic radiation and comprises at least an elastomeric binder and particulate; B) forming a layer of a photopolymerizable composition, that is sensitive to actinic radiation and comprises a binder, a monomer, and a photoinitiator, between a support and the multilayer cover element so that the elastomeric layer is contacting the photopolymerizable layer; wherein the elastomeric composition has an index of refraction, the particulate is selected from polyamide, polymethylmethacrylate, feldspar, or nepheline syenite; the particulate having an average diameter from 1 to 10 micron, an index of refraction that is ±0.04 of the index of refraction of the elastomeric composition, and is present at 5-40% by weight based on the total weight of the elastomeric composition. 6. A method to prepare a relief printing form comprising: I) forming an in-situ mask by imagewise exposing with laser radiation an actinic radiation opaque layer of a printing form precursor comprising: a) a layer of a photopolymerizable composition sensitive to actinic radiation, the photopolymerizable composition comprising a binder, a monomer, and a photoinitiator; b) a layer of an elastomeric composition, that is or becomes sensitive to the actinic radiation, comprising at least an elastomeric binder, and particulate, the elastomeric composition having an index of refraction; wherein the particulate is selected from polyamide, polymethylmethacrylate, feldspar, or nepheline syenite, the particulate having an average diameter from 1 to 10 micron, an index of refraction that is ±0.04 of the index of refraction of the elastomeric composition, and is present at 5-40% by weight based on the total weight of the elastomeric composition; and c) the actinic radiation opaque layer on, adjacent, or disposed above the elastomeric layer b) opposite the photopolymerizable layer a), that is capable of forming an in-situ mask; II) overall exposing the precursor of step I) to actinic radiation through the in-situ mask, forming polymerized portions and unpolymerized portions in the photopolymerizable layer and the elastomeric layer; and III) treating the precursor of II) to remove unpolymerized portions and form a relief surface suitable for printing. 7. A method to prepare a relief printing form comprising: I) forming an in-situ mask of an actinic radiation opaque material for a printing form precursor comprising: a) a layer of a photopolymerizable composition sensitive to actinic radiation, the photopolymerizable composition comprising a binder, a monomer, and a photoinitiator; b) a layer of an elastomeric composition, that is or becomes sensitive to the actinic radiation, comprising at least an elastomeric binder, and particulate, the elastomeric composition having an index of refraction; wherein the particulate is selected from polyamide, polymethylmethacrylate, feldspar, or nepheline syenite, the particulate having an average diameter from 1 to 10 micron, an index of refraction that is ±0.04 of the index of refraction of the elastomeric composition, and is present at 5-40% by weight based on the total weight of the elastomeric composition; wherein the in-situ mask is on, adjacent, or disposed above the elastomeric layer b) opposite the photopolymerizable layer a); II) overall exposing the precursor of step I) to actinic radiation through the in-situ mask, forming polymerized portions and unpolymerized portions in the photopolymerizable layer and the elastomeric layer; and III) treating the precursor of II) to remove unpolymerized portions and form a relief surface suitable for printing.