Elastomeric body for vibration damping

1 . An elastomeric body for vibration damping and/or springing, the body comprising: a main body; and a flame-retardant coating which covers at least part of the main body, the flame-retardant coating including a first intumescent flame retardant system and a second intumescent flame retardant system, wherein the first flame retardant system includes expandable graphite including a first fraction with average grain size more than 180 μm, wherein the first flame retardant system includes expandable graphite including a second fraction with average grain size less than 180 μm, and wherein, in an expanded state, the second flame retardant system forms a supportive structure configured to at least partially fix the expandable graphite in the expanded state. 2 . The body of claim 1 , wherein a proportion of the expandable graphite in the flame-retardant coating is from 5% by weight to 60% by weight, based on a total weight of the flame-retardant coating. 3 . The body of claim 1 , wherein a proportion of the first fraction of the expandable graphite is from 40% by weight to 95% by weight, based on a total quantity of graphite in the flame-retardant coating. 4 . The body of claim 1 , wherein a proportion of the second fraction of the expandable graphite is from 5% by weight to 60% by weight, based on a total quantity of graphite in the flame-retardant coating. 5 . The body of claim 1 , wherein the second intumescent flame retardant system comprises: an acid donor; a carbon donor; a blowing agent. 6 . The body of claim 1 , wherein the second intumescent flame retardant system comprises a mixture of ammonium polyphosphate (APP) and melamine cyanurate. 7 . The body of claim 1 , wherein a proportion of acid donor in the second intumescent flame retardant system is from 20% by weight to 80% by weight, based on a total quantity of the second intumescent flame retardant system, and/or a proportion of carbon donor in the second intumescent flame retardant system is from 10% by weight to 40% by weight, based on a total quantity of the second intumescent flame retardant system, and/or a proportion of blowing agent in the second intumescent flame retardant system is from 10% by weight to 40% by weight based on a total quantity of the second intumescent flame retardant system. 8 . The body of claim 1 , wherein the second intumescent flame retardant system comprises nanocomposites. 9 . The body of claim 1 , wherein the flame-retardant coating comprises no halogen-containing flame retardants. 10 . A process for the production of an body of claim 1 , the method comprising: producing and/or providing a suspension comprising the first intumescent flame retardant system comprising the expandable graphite including the first fraction with average grain size more than 180 μm, and the second fraction with average grain size less than 180 μm, the suspension further comprising the second intumescent flame retardant system which, in the expanded state, forms the supportive structure configured to at least configured to at least partially fix the expandable graphite in the expanded state; and applying the suspension to at least part of the surface of the main body, thus providing the flame-retardant coating to the body. 11 . A method of producing a component for vibration damping and/or springing, the method comprising including the body of claim 1 in the component. 12 . The body of claim 1 , wherein the first fraction has an average grain size in a range of from 180 μm to 500 μm. 13 . The body of claim 1 , wherein the second fraction has an average grain size in a range of from 50 μm to 180 μm. 14 . The body of claim 1 , wherein the proportion of the expandable graphite in the flame-retardant coating is from 10% by weight to 50% by weight. 15 . The body of claim 1 , wherein a proportion of the first fraction of the expandable graphite is from 50% by weight to 75% by weight, based on a total quantity of graphite in the flame-retardant coating. 16 . The body of claim 1 , wherein a proportion of the second fraction of the expandable graphite is from 5% by weight to 60% by weight, based on the total quantity of graphite in the flame-retardant coating. 17 . The body of claim 5 , wherein the acid donor comprises a phosphorus-comprising flame retardant. 18 . The body of claim 5 , wherein the acid donor comprises red phosphorus, ammonium phosphate, ammonium polyphosphate, a phosphate ester of formula P(O)OR 1 OR 2 OR 3 , a phosphonate of formula P(O)R 1 OR 2 OR 3 , a phosphinate of formula P(O)R 1 R 2 OR 3 , a phosphoramidate of formula (R 1 O)(R 2 O)PONR 3 R 4 , a phosphordiamidates of formula (R 1 O)PO(NR 2 R 3 )(NR 4 R 5 ), or a mixture of two or more of any of these, wherein R 1 , R 2 , R 3 , R 4 , and R 5 are independently hydrogen or a organic, branched or unbranched aromatic and/or saturated aliphatic and/or unsaturated aliphatic, and/or saturated cycloaliphatic and/or unsaturated cycloaliphatic, substituted and/or unsubstituted moiety comprising from 1 to 20 C atoms. 19 . The body of claim 5 , wherein the carbon donor comprises a polyhydric alcohol. 20 . The body of claim 5 , wherein the blowing agent comprises a nitrogen-containing blowing agent.