2020
DOI: 10.1134/s102745102003012x
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Effect of the Annealing Temperature and Constant Magnetic Field on the Decomposition of Quenched Beryllium Bronze BrB-2

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Cited by 4 publications
(7 citation statements)
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“…The changes of microhardness of the alloy was mainly due to the magnetic field affecting the number and distribution of θ phase precipitation. Diamagnetic beryllium bronze alloy, which had been solid solution treatment, was aged in the constant magnetic field of 0.7 T [16][17][18][19], and its microhardness changes are shown in Figure 2. It can be found that the microhardness of beryllium bronze alloy decreases basically (in Figure 2a-c), and the microhardness of Cu-1.6Be alloy decreases by 25.0% at most after magnetic field treatment.…”
Section: Magnetic Field Assisted Heat Treatment Of Metallic Materialsmentioning
confidence: 99%
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“…The changes of microhardness of the alloy was mainly due to the magnetic field affecting the number and distribution of θ phase precipitation. Diamagnetic beryllium bronze alloy, which had been solid solution treatment, was aged in the constant magnetic field of 0.7 T [16][17][18][19], and its microhardness changes are shown in Figure 2. It can be found that the microhardness of beryllium bronze alloy decreases basically (in Figure 2a-c), and the microhardness of Cu-1.6Be alloy decreases by 25.0% at most after magnetic field treatment.…”
Section: Magnetic Field Assisted Heat Treatment Of Metallic Materialsmentioning
confidence: 99%
“…Diamagnetic beryllium bronze alloy, which had been solid solution aged in the constant magnetic field of 0.7 T [16][17][18][19], and its microhardn shown in Figure 2. It can be found that the microhardness of beryllium b creases basically (in Figure 2a-c), and the microhardness of Cu-1.6Be all 25.0% at most after magnetic field treatment.…”
Section: Magnetic Field Assisted Heat Treatment Of Metallic Materialsmentioning
confidence: 99%
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