Conveyance system for tensioning in order to post-treat a rapidly-solidified metal strip, and post-treatment method

The invention claimed is: 1. A method for post-treating a rapidly-solidified metal strip, comprising: conveying a metal strip through a conveyance system, the metal strip having a composition of Fe 100-a-b-c-d-x-y-z Cu a Nb b M c T d Si x B y Z z and up to 1 atom % impurities, wherein M is one or more of the elements Mo, Ta, or Zr; T is one or more of the elements V, Mn, Cr, Co, or Ni; and Z is one or more of the elements C, P, or Ge; and 0 atom %≤a<1.5 atom %, 0 atom %≤b<2 atom %, 0 atom %≤(b+c)<2 atom %, 0 atom %≤d<5 atom %, 10 atom %<x<18 atom %, 5 atom %<y<11 atom %, and 0 atom %≤z<2 atom %; the conveyance system including a tension roller assembly and a tensioning assembly, wherein the tension roller assembly a single drive roller and a freely rotating pressing roller; and the conveying step includes conveying the metal strip between the tensioning assembly and the tension roller assembly to continuously post-treat the metal strip under tension. 2. The method of claim 1 , wherein the metal strip is conveyed over an angle of wrap α on the drive roller; and, in relation to the drive roller, the pressing roller is arranged at a contact point of the metal strip that defines an end of an angle of wrap α. 3. The method according to claim 1 , wherein in order to achieve a desired value of the permeability or of the anisotropy field, a maximum value of a remanence ratio and a maximum value of a ratio of a coercivity field intensity to an anisotropy field intensity, H c /H a , as well as an allowable deviation range of each of these values are predetermined, wherein magnetic properties of the metal strip are measured continuously at an exit from a continuous furnace, and when deviations from the allowable deviation ranges of the magnetic properties are found, the tensile stress on the metal strip is adjusted correspondingly in order to bring the measured values of the magnetic properties back within the allowable deviation ranges. 4. A method for post-treating a rapidly-solidified metal strip, comprising the steps of: inserting a metal strip into a tensioning assembly before a post-treatment region in space and time; bridging the distance between the tensioning assembly and the tension roller assembly amid the insertion of the metal strip into the tension roller assembly, after a post-treatment region in space and in time; conveying the metal strip between the tensioning assembly and the tension roller assembly, wherein the metal strip is conveyed over an angle of wrap α on the drive roller and, in relation to the drive roller, the pressing roller is arranged at a contact point of the metal strip that defines an end of an angle of wrap α; and post-treating the metal strip under tensile stress between the tensioning assembly and the tension roller assembly with continuous conveyance of the metal strip through the tensioning assembly and the tension roller assembly. 5. The method according to claim 4 , wherein an optimum range for an angle of wrap α of the metal strip on the drive roller is determined by recording and assessing a frequency of breaks of the metal strip based on the length of the metal strip of more than or equal to 1 km. 6. The method according to claim 4 , wherein the metal strip is formed of a Co-based or Fe-based amorphous alloy, and the metal strip is post-treated at room temperature. 7. The method according to claim 4 , wherein a heat treatment of the metal strip under tensile stress is carried out in the post-treatment region, between the tensioning assembly and the tension roller assembly. 8. The method according to claim 7 , wherein the following are predetermined: a desired value of the permeability or of the anisotropy field; a maximum value of a remanence ratio J r /J s , of less than 0.1; and a maximum value of a ratio of a coercivity field intensity to an anisotropy field intensity H c /H a of less than 10%; as well as an allowable deviation range of each of these values; magnetic properties of the metal strip are continuously measured at an exit from a continuous furnace; and when deviations from the allowable deviation ranges of the magnetic properties are found, the tensile stress on the metal strip is adjusted correspondingly in order to bring the measured values of the magnetic properties back within the allowable deviation ranges. 9. The method according to claim 4 , wherein metal strip has the following composition and is post-treated: Fe 100-a-b-c-d-x-y-z Cu a Nb b M c T d Si x B y Z z and up to 1 atom % of impurities, wherein: M is one or more of the elements Mo, Ta, or Zr; T is one or more of the elements V, Mn, Cr, Co, or Ni; and Z is one or more of the elements C, P, or Ge; and 0 atom %≤a<1.5 atom %, 0 atom %≤b<2 atom %, 0 atom %≤(b+c)<2 atom %, 0 atom %≤d<5 atom %, 10 atom %<x<18 atom %, 5 atom %<y<11 atom %, and 0 atom %≤z<2 atom %.