Shim for a compression mold with improved sealing

What is claimed is: 1. A mobile shim for compression mold for manufacturing a reinforced plastic part by molding under a predetermined maximum molding pressure, said mold comprising a molding element, said mobile shim being displaceable in translation parallel to a mold closing direction, said mobile shim having a molding surface intended to come into continuous contact, during molding, with a molding surface on said molding element, wherein said mobile shim comprises over at least part of its thickness, in a direction perpendicular to said mold closing direction, at least one high expansion component of determined configuration, said high expansion component comprising at least one or more high expansion materials, said at least one high expansion material having a mean coefficient of expansion sufficient to cause said at least one high expansion component to expand during molding so that a clearance between said shim and said molding element is zero at least when, during said molding, said at least one high expansion component is heated to at least a molding temperature T M between 115° C. and 170° C., said at least one high expansion component having in addition a mean Young's modulus at the molding temperature E CHD , less than 20 000 MPa, a configuration of said at least one high expansion component and the one or more high expansion materials forming said at least one high expansion component are selected so that when said shim is assembled in said mold and during molding, said at least one high expansion component is heated from an ambient temperature of at least 23° C. to said molding temperature, the expansion of said at least one high expansion component generates at a sealing region between said shim and said molding element a compression stress in a direction perpendicular to said mold closing direction, or increases said compression stress if it exists at ambient temperature, said compression stress being sufficient, when said at least one high expansion component is at said molding temperature, to guarantee sealing during molding between said mobile shim and said molding element, the temperature T M being considered at a mean level of this sealing region; wherein the mean coefficient of expansion λ CHD between 23° C. and 150° C. of said high expansion material is at least 50% greater than the mean coefficient of expansion λ EM of said molding element at said mean level of said sealing region. 2. The shim according to claim 1 , wherein said at least one high expansion component comprises one or more high expansion materials each comprising a continuous solid phase made of a plastic material, and wherein E CHD is between 900 MPa and 7500 MPa. 3. The shim according to claim 1 , wherein said at least one high expansion component is subjected to said compression stress in a direction perpendicular to said mold closing direction of between 4 MPa and 40 MPa when said at least one high expansion component is heated to said molding temperature. 4. The shim according to claim 1 , wherein the shim is not provided with structural means for changing its temperature. 5. The shim according to claim 1 , wherein said molding surface of said molding element is formed on a steel substrate comprising at least 70% by weight of iron, and the mean coefficient of expansion λ CHD of said high expansion component between 23° C. and 150° C. is between 22×10 −6 et 120×10 −6 m/(m.K). 6. The shim according to claim 1 , wherein said at least one high expansion component extends over a constant thickness Ep in a direction perpendicular to said mold closing direction, such that 0.02×10 −3 <Ep (λ CHD −λ EM )×127<0.25×10 −3 . 7. The shim according to claim 1 , wherein the height of said sealing region is between 20 mm and 60 mm in said mold closing direction. 8. The shim according to claim 1 , wherein the height of said at least one high expansion component is between 40 mm and 120 mm in said mold closing direction. 9. The shim according to claim 1 , wherein said at least one high expansion component comprises at least 65% by weight of one or more polymers from the group consisting of polyetheretherketone, known as PEEK, polyimide, known as PI, polyamide-imide, known as PAI, and polyphenylene sulphide, known as PPS. 10. The shim according to claim 9 , wherein said at least one high expansion component comprises at least 65% by weight of PEEK and/or PAI. 11. The shim according to claim 1 , wherein said shim comprises, over at least part of its thickness in a direction perpendicular to said mold closing direction, a first part made of a material of hardness greater than that of any material in said at least one high expansion component, and a second part formed by said at least one high expansion component, said first part comprising said molding surface of said mobile shim, while said second part comprises no molding surface. 12. The shim according to claim 11 , wherein said at least part of said shim also comprises a third part made of a material of hardness greater than that of any material in said at least one high expansion component, said second part being sandwiched between said first part and said third part. 13. A compression mold for manufacturing a reinforced plastic part by molding under a predetermined maximum molding pressure, comprising a molding element, wherein it comprises at least one mobile shim according to claim 1 . 14. The compression mold according to claim 13 , wherein the clearance between said shim and said molding element at the ambient temperature of 23° C. lies in the range [0 mm; 0.2 mm]. 15. The compression mold according to claim 13 , wherein the force exerted by said shim on said molding element at said sealing region, when said molding element is heated to said molding temperature, is equal to at least 6 times the force exerted on said shim by the pressure of a molding material on said molding surface of said shim, at the predetermined maximum molding pressure. 16. The mold according to claim 13 , comprising a plurality of mobile shims, wherein said molding surface on said molding element is delimited and surrounded at its periphery by a molding surface formed by the union of a plurality of elementary molding surfaces each formed by said molding surface of said mobile shim, each of said mobile shims being displaceable in translation parallel to a mold closing direction, said mobile shim having a molding surface intended to come into continuous contact, during molding, with a molding surface on said molding element, wherein said mobile shim comprises over at least part of its thickness, in a direction perpendicular to said mold closing direction, at least one high expansion component of determined configuration, said high expansion component comprising at least one or more high expansion materials, said at least one high expansion material having a mean coefficient of expansion sufficient so that the clearance between said shim and said molding element is zero at least when, during molding, said at least one high expansion component is heated to at least a molding temperature T M between 115° C. and 170° C., said at least one high expansion component having in addition a mean Young's modulus at the molding temperature E CHD , less than 20 000 MPa, a configuration of said at least one high expansion component and the one or more high expansion materials forming said at least one high expansion component are selected so that when said shim is assembled in said mold and during molding, said at least one high expansion component is heated from an ambient temperature of at least 23° C. to said molding