Method for radiographically inspecting a component by means of X-ray beams using a smoothing agent and smoothing agent for carrying out the method

What is claimed is: 1. An object for radiographic inspection, comprising: a core component made of a base material of at least one chosen from iron, low-alloy steel, high-alloy steel, titanium, aluminum and a nickel-base material, the core component including an externally facing surface; a smoothing layer applied to the externally facing surface of the core component, the smoothing layer made of a smoothing material comprising a mixture of 35 to 45 percent by volume of an organic compound and 55 to 65 percent by volume of a metal powder mixture, where the metal powder mixture is predominantly made up of the base material and an additional metal powder including lead or iron; wherein a radiation absorption behavior of the smoothing material essentially equals a radiation absorption behavior of the base material; wherein half-value thicknesses or volume-specific radiation absorptions of the base material and the smoothing material are identical or nearly identical. 2. The object for radiographic inspection of claim 1 , wherein the base material is steel with less than 30% of alloying constituents and a half-value thickness of 2.5 mm; and wherein the smoothing material includes 40 percent by volume of organic compound, 58.2 percent by volume of iron powder and 1.8 percent by volume of lead powder, and has a half-value thickness of 2.5 mm. 3. The object for radiographic inspection of claim 1 , wherein the smoothing material is plastically deformable. 4. The object for radiographic inspection of claim 3 , wherein the smoothing material is kneadable. 5. The object for radiographic inspection of claim 1 , wherein the base material is aluminum or an aluminum alloy with less than 20% of alloying constituents and a half-value thickness of 16 mm; and wherein the smoothing material includes 40 percent by volume of organic compound, 59.83 percent by volume of aluminum powder and 0.175 percent by volume of lead powder, and has a half-value thickness of 16 mm. 6. The object for radiographic inspection of claim 1 , wherein the base material is aluminum or an aluminum alloy with less than 20% of alloying constituents and a half-value thickness of 16 mm; wherein the smoothing material includes 40 percent by volume of organic compound, 55.5 percent by volume of aluminum powder and 4.5 percent by volume of iron powder, and has a half-value thickness of 16 mm. 7. The object for radiographic inspection of claim 1 , wherein the base material is titanium or titanium alloy with less than 15% of alloying constituents and a half-value thickness of 5.6 mm; and wherein the smoothing material includes 40 percent by volume of organic compound, 59.27 percent by volume of titanium powder and 0.73 percent by volume of lead powder, and has a half-value thickness of 5.6 mm. 8. The object for radiographic inspection of claim 1 , wherein the base material is titanium or titanium alloy with less than 15% of alloying constituents and a half-value thickness of 5.6 mm; and wherein the smoothing material includes 40 percent by volume of organic compound, 31.3 percent by volume of titanium powder and 28.7 percent by volume of iron powder, and has a half-value thickness of 5.6 mm. 9. The object for radiographic inspection of claim 1 , wherein the base material is nickel-base material INCONEL 718 with a half-value thickness of 2.0 mm; and wherein the smoothing material includes 40 percent by volume of organic compound, 57.6 percent by volume of INCONEL 718 powder and 2.4 percent by volume of lead powder, and has a half-value thickness of 2.0 mm.