The Paton Welding Journal, 2021, #8, 17-20 pages
Influence of alloying elements on solidus and liquidus temperatures of alloys of Cu‒Mn‒Ni‒Si system
S.V. Maksymova, I.V. Zvolinskyy and E.V. Ivanchenko
E.O. Paton Electric Welding Institute of the NASU.
11 Kazymyr Malevych Str., 03150, Kyiv, Ukraine. E-mail: office@paton.kiev.ua
Abstract
Plasma brazing of steels is performed using brazing filler metals having liquidus temperature higher than 1000 °C.
This work shows the possibility of lowering the brazing temperature by applying brazing filler metals having a lower
melting temperature. The method of high-temperature differential thermal analysis was used to establish the influence
of manganese, nickel and silicon on solidus and liquidus temperatures of experimental alloys of the Cu‒Mn‒Ni‒Si
system. Empirical data and mathematical processing methods were applied to determine the influence of chemical
elements on calculated coefficients of the impact of alloying elements on solidus and liquidus temperatures of alloys of
the Cu‒Mn‒Ni‒Si system that promotes lowering of melting temperature. The influence of nickel and silicon content
at a fixed quantity of manganese of 10 and 16 wt.% on the spreading area over 08kp (rimmed) steel and melting temperature
range was studied. High-quality formation of brazed joints from 08kp alloy produced by plasma brazing with
application of the studied alloys was proved experimentally. 16 Ref., 2 Tables, 5 Figures.
Keywords: plasma brazing, spreading area, solidus and liquidus temperature, high-temperature differential thermal
analysis, melting temperature range
Received 28.04.2021
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Suggested Citation
S.V. Maksymova, I.V. Zvolinskyy and E.V. Ivanchenko (2021) Influence of alloying elements on solidus and liquidus temperatures of alloys of Cu‒Mn‒Ni‒Si system.
The Paton Welding J., 08, 17-20.