Metal heat exchanger tube

The invention claimed is: 1. A metal heat exchanger tube, comprising: a tube wall having an outside; integral fins formed on the outside of the tube wall, each of the integral fins having a fin foot, fin flanks and a fin tip, the fin foot of each integral fin protruding radially from the tube wall; a channel having a channel base, the channel being formed between the integral fins; and additional structures arranged in the channel in spaced-apart relation and dividing the channel into segments, the additional structures reducing a throughflow cross-sectional area of the channel between the integral fins locally to at least limit a fluid flow in the channel during operation, first ones of the additional structures comprising radially outwardly directed projections emerging from the channel base and each of the first ones of the additional structures being delimited in a radial direction by an end surface located between the channel base and the fin tip such that the end surface defines a radial extent of the respective projection, second ones of the additional structures comprising material protrusions arranged radially outward at locations of the respective projections, the material protrusions being formed from a material of the fin flanks, the material protrusions each being arranged in the radial direction between one of the end surfaces and the fin tip, the material protrusions being formed so as to lie laterally on the fin flank and around a radial extent of the respective projections, and the material protrusions extending further in axial and radial directions than in a circumferential direction. 2. The heat exchanger tube as claimed in claim 1 , wherein the projections and the material protrusions reduce the throughflow cross-sectional area in the channel locally by at least 30%. 3. The heat exchanger tube as claimed in claim 1 , wherein the projections and the material protrusions reduce the throughflow cross-sectional area in the channel locally by at least 40 to 70%. 4. The heat exchanger tube as claimed in claim 1 , wherein the channel is closed radially outward except at individual local openings. 5. The heat exchanger tube as claimed in claim 1 , wherein the individual local openings include at least one local opening per each of the segments. 6. The heat exchanger tube as claimed in claim 1 , wherein the projections are formed at least from a material of the channel base. 7. The heat exchanger tube as claimed in claim 6 , wherein the projections have a height of between 0.15 and 1 mm. 8. The heat exchanger tube as claimed in claim 1 , wherein the projections have asymmetric shapes. 9. The heat exchanger tube as claimed in claim 1 , wherein the projections have a trapezoidal cross section in a section plane running perpendicularly to a tube longitudinal axis. 10. The heat exchanger tube as claimed in claim 1 , wherein opposite ones of the material protrusions are formed at the locations of the projections in a direction of a tube longitudinal axis.