Multifunctional acrylated ether-ester products, process for preparing same and related crosslinkable compositions

The invention claimed is: 1. A multifunctional acrylic product having a mean functionality of acrylate groups per mole of product greater than 3 and a density of groups from 4 to 12 mmol per g of said product, produced by esterification and etherification, via Michael addition reaction, between at least one polyol R(OH) m with a functionality m of at least 3, and acrylic acid (R 1 OH), with a ratio of carboxyl groups of acrylic acid to hydroxyl groups of said polyol having a value of from ⅔ to 0.95, and which final product comprises at least three acrylates according to formula (I) and corresponding to n=0, n=1, and n=2: (R 1 O)—[—R[OR 1 ] m-2 —O—(C═O)—CH 2 —CH 2 —O—] n —R—(OR 1 ) m-1   (I) with R 1 being the acryloyl radical (—(C═O)—CH═CH 2 ), R being the residual radical of said polyol R(OH) m and n is the number of ether-ester repeating units obtained by Michael addition of residual OH groups of hydroxylated acrylate esters formed by partial esterification of said polyol by Michael addition on the acrylate groups of said acrylate esters. 2. A composition comprising a mixture of multifunctional acrylic products, wherein each of said multifunctional products has a mean functionality of acrylate groups per mole of product greater than 3 and a density of groups from 4 to 12 mmol per g of said product, produced by esterification and etherification, via Michael addition reaction, between at least one polyol R(OH) m with a functionality m of at least 3, and acrylic acid (R 1 OH), with a ratio of carboxyl groups of acrylic acid to hydroxyl groups of said polyol having a value of from ⅔ to 0.95, and which final product comprises at least three acrylates according to formula (I) and corresponding to n equals at least 0: (R 1 O)—[—R[OR 1 ] m-2 —O—(C═O)—CH 2 —CH 2 —O—] n —R—(OR 1 ) m-1   (I) with R 1 being the acryloyl radical (—(C═O)—CH═CH 2 ), R being the residual radical of said polyol R(OH) m and n is the number of ether-ester repeating units obtained by Michael addition of residual OH groups of hydroxylated acrylate esters formed by partial esterification of said polyol by Michael addition on the acrylate groups of said acrylate esters, wherein for at least 80% by weight of the products, wherein n of formula (I) is from 0 to 4, and, for less than 20% of the products, wherein n is greater than 4 with a corresponding number-average mass Mn ranging from 300 to 3000. 3. A product according to claim 1 wherein said polyol has a functionality m of at least 4 and wherein said product comprises linear products according to the formula (I) and at least one product of branched structure. 4. A product according to claim 1 obtained by simultaneous or successive and alternating esterification and etherification reactions. 5. A product according to claim 1 wherein, said polyol is selected from the group consisting of polyol monomers and polyol oligomers with an Mn (polyol oligomers) not exceeding 600. 6. A product according to claim 5 , wherein said polyol is a polyol monomer selected from the group consisting of pentaerythritol, trimethylolpropane, alkoxylated pentaerythritol, alkoxylated trimethylolpropane, alkoxylated glycerol, sorbitol, erythritol, xylitol, preferably pentaerythritol, trimethylolpropane, alkoxylated pentaerythritol, alkoxylated trimethylolpropane, and sorbitol. 7. A product according to claim 5 , wherein said polyol is a polyol oligomer selected from the group consisting of polyether polyols, polyesterpolyols and hydroxylated acrylic oligomers. 8. A product according to claim 1 wherein in addition to said polyol with a functionality of at least 3, there is a second polyol different from the first with a functionality of at least 2. 9. A process for preparing a product according to claim 1 comprising the steps: i) forming a reaction mixture by mixing in a reactor of acrylic acid and said polyol in proportions such that the overall equivalent ratio r=CO 2 H/OH is within a range having a value of from ⅔ to 0.95, in the presence of an acidic esterification catalyst and a solvent forming an azeotrope with water, followed by ii) refluxing said reaction mixture, with simultaneous or successive and alternating esterification reactions, by of reacting acrylic acid with hydroxyl of said polyol, and etherification reactions, via Michael addition reaction of hydroxyl of said polyol to a formed acrylate group and gradual removal of the esterification water, iii) continuing the reaction until all of the OH functions have been consumed by Michael addition, and iv) neutralizing said acidic catalyst for recovery of said final product, by removal of the said solvent. 10. A composition comprising at least one product according to claim 1 , wherein the composition is a radiation-crosslinkable and/or crosslinkable via a thermal radical initiating system and/or crosslinkable via Michael addition (M-cure) or a mixed system. 11. A composition according to claim 10 wherein for Mn greater than 1000, the composition also comprises at least one reactive diluent selected from the group consisting of acrylic monomers. 12. A multifunctional acrylic product having a mean functionality of acrylate groups per mole of product greater than 3 and a density of groups from 4 to 12 mmol per g of said product, produced by esterification and etherification, via Michael addition reaction, between at least one polyol R(OH) m with a functionality m of at least 3, and acrylic acid (R 1 OH), with a ratio of carboxyl groups of acrylic acid to hydroxyl groups of said polyol having a value of from ⅔ to 0.95, and which final product comprises four acrylates according to formula (I) and corresponding to n=0, n=1, n=2, and n=3: (R 1 O)—[—R[OR 1 ] m-2 —O—(C═O)—CH 2 —CH 2 —O—] n —R—(OR 1 ) m-1   (I) with R 1 being the acryloyl radical (—(C═O)—CH═CH 2 ), R being the residual radical of said polyol R(OH) m and n is the number of ether-ester repeating units obtained by Michael addition of residual OH groups of hydroxylated acrylate esters formed by partial esterification of said polyol by Michael addition on the acrylate groups of said acrylate esters. 13. A multifunctional acrylic product having a mean functionality of acrylate groups per mole of product greater than 3 and a density of groups from 4 to 12 mmol per g of said product, produced by esterification and etherification, via Michael addition reaction, between at least one polyol R(OH) m with a functionality m of at least 3, and acrylic acid (R 1 OH), with a ratio of carboxyl groups of acrylic acid to hydroxyl groups of said polyol having a value of from ⅔ to 0.95, and which final product comprises five acrylates according to formula (I) and corresponding to n=0, n=1, n=2, n=3, and n=4: (R 1 O)—[—R[OR 1 ] m-2 —O—(C═O)—CH 2 —CH 2 —O—] n —R—(OR 1 ) m-1   (I) with R 1 being the acryloyl radical (—(C═O)—CH═CH 2 ), R being the residual radical of said polyol R(OH) m and n is the number of ether-ester repeating units obtained by Michael addition of residual OH groups of hydroxylated acrylate esters formed by partial esterification of said polyol by Michael addition on the acrylate groups of said acrylate esters.