Hot compression behavior of the Cu–Co–Si and Cu–Co–Si–Ti alloys was studied using the
Gleeble-1500 simulator at 0.001–10 s− 1 strain rate and 500–900° C deformation …

The effect of aluminum on the microstructure and properties of Cu–Ni–Si alloys has been
investigated using hardness test, electrical conductivity measurement, optical microscopy, X …

In this paper, the effects of Nb addition on the mechanical properties, electrical conductivity
and microstructure of the Cu-Ni-Si-Mg alloy were investigated. The results show that, after …

The hot deformation characteristics of Cu–2Be alloy is studied within the temperature range
of 650–950° C and in strain rate of 0.001–1 s− 1. The constitutive analysis and adaptive …

Hot deformation behavior of the Cu-Cr-Zr-Y alloy was studied by hot compressive tests in the
650–850° C temperature and 0.001–10 s− 1 strain rate ranges using the Gleeble-1500D …

The effects of Ce and Y addition on microstructure evolution and precipitation of Cu-Mg alloy
hot deformation were investigated by hot compression test in the 500–850° C temperature …

Microalloying is an effective method to improve the comprehensive properties of copper
alloys. The effects of magnesium on the microstructure, mechanical properties and anti …

Abstract Cu-Ni-Si alloys and their variants constitute very important engineering materials,
which have found a number of applications in different fields, as potential substitutes of the …

To explore the fatigue failure laws of dropper structures, this study performs impact fatigue
tests and local simulation analyses on two newly proposed dropper structures. The failure …

Hot deformation behavior of an as-cast Cu–Ni–Si alloy with columnar grains in terms of flow
stress, constitutive equation, processing map, microstructure evolution, and dynamic …