Application of amorphous filler metals in production of fusion reactor high heat flux components

Amorphous ribbon-type filler metals represent a promising facility for fastening heterogenous materials together. The advantage results from the homogeneity of element and phase compositions and the strictly specified geometrical dimensions of such fillers. Amorphous fillers Zr-Ti-Fe-Be, Zr-Ti-Ni-Cu...

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Published in:Fusion engineering and design 1994-06, Vol.28, p.119-124
Main Authors: Kalin, B A, Fedotov, V T, Grigoriev, A E, Sevriukov, O N, Pliushev, A N, Skuratov, L A, Polsky, V I, Yakushin, V L, Virgiliev, Y U S, Vasiliev, V L, Tserevitinov, S S
Format: Article
Language:English
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Summary:Amorphous ribbon-type filler metals represent a promising facility for fastening heterogenous materials together. The advantage results from the homogeneity of element and phase compositions and the strictly specified geometrical dimensions of such fillers. Amorphous fillers Zr-Ti-Fe-Be, Zr-Ti-Ni-Cu and Ti-Zr-Ni-Cu and microcrystalline fillers Al-Si and Cu-Sn-Mn-In-Ni were produced by quenching at a rate of approx10 exp 6 K s exp -1 . Brazing of graphite with metals (Cu+MPG-6, Cu+RGT, Mo+MIG-1, V+MIG-1, V+RGT) was accomplished using ribbon-type fillers. Two types of metal-based samples were produced in the form of plates and rakes. The rakes were made by brazing three small graphite bars to the metal, the 2 mm space between the bars being 0.25 of the bar height. The results of metallographic studies of the brazing zone and of tests on brazed structures treated by pulsed energy fluxes are discussed.
ISSN:0920-3796