Precipitation mechanisms of intermetallic compounds in W–Mo–Ni–Fe alloys

“…The three noteworthy territories with various difference of BEI pictures are apportioned to be W-rich stage, Mo rich stage and Ni rich stage with increase in darkness. This figure has indicated both shape anomalies and bimodal size circulation of grains [31]. Test examinations on both W-8Mo-7Ni-3Fe and W-22.4Mo-7.8Ni-3.4Fe alloys have uncovered that the Mo coefficient in the network surpassed that of W by a factor of 2.6.…”

“…Test examinations on both W-8Mo-7Ni-3Fe and W-22.4Mo-7.8Ni-3.4Fe alloys have uncovered that the Mo coefficient in the network surpassed that of W by a factor of 2.6. In light of the perception by Lin and Hsu [31], it is obvious that the little amount of Mo addition in the matrix phase reduces the W composition significantly.…”

“…Plenty of research has been done on W-Ni-Fe substantial compounds with Molybdenum. The instrument of precipitation of intermetallic mixes in W-Mo-Ni-Fe alloys is researched by Lin [27]. The grain development system of WHAs with various measures of Molybdenum are studied by Hsu [28] It is obvious from the Fig.…”

“…Precipitation in Tungsten Heavy Alloys with Molybdenum Lin and Hsu [31] inspected two diverse Tungsten alloys with arrangement of W-8Mo-7Ni-3Fe and W-22.4Mo-7.8Ni-3.4Fe. The powders which were blended and mixed in a plastic jug for around 16 h are utilized as a part of these compounds and recorded in Table 3 [31].…”

“…W-8Mo-7Ni-3Fe specimen's BEI image (b) and line scanning (a) which is isothermally held at 1773 K for 5 min and cooled in a furnace. W-Mo grains packets of matrix phase are indicated by arrows[31].…”

Tungsten Heavy Alloys with Molybdenum, Y2O3 and Lanthanum. A Review

“…The three noteworthy territories with various difference of BEI pictures are apportioned to be W-rich stage, Mo rich stage and Ni rich stage with increase in darkness. This figure has indicated both shape anomalies and bimodal size circulation of grains [31]. Test examinations on both W-8Mo-7Ni-3Fe and W-22.4Mo-7.8Ni-3.4Fe alloys have uncovered that the Mo coefficient in the network surpassed that of W by a factor of 2.6.…”

“…Test examinations on both W-8Mo-7Ni-3Fe and W-22.4Mo-7.8Ni-3.4Fe alloys have uncovered that the Mo coefficient in the network surpassed that of W by a factor of 2.6. In light of the perception by Lin and Hsu [31], it is obvious that the little amount of Mo addition in the matrix phase reduces the W composition significantly.…”

“…Plenty of research has been done on W-Ni-Fe substantial compounds with Molybdenum. The instrument of precipitation of intermetallic mixes in W-Mo-Ni-Fe alloys is researched by Lin [27]. The grain development system of WHAs with various measures of Molybdenum are studied by Hsu [28] It is obvious from the Fig.…”

“…Precipitation in Tungsten Heavy Alloys with Molybdenum Lin and Hsu [31] inspected two diverse Tungsten alloys with arrangement of W-8Mo-7Ni-3Fe and W-22.4Mo-7.8Ni-3.4Fe. The powders which were blended and mixed in a plastic jug for around 16 h are utilized as a part of these compounds and recorded in Table 3 [31].…”

“…W-8Mo-7Ni-3Fe specimen's BEI image (b) and line scanning (a) which is isothermally held at 1773 K for 5 min and cooled in a furnace. W-Mo grains packets of matrix phase are indicated by arrows[31].…”

Tungsten Heavy Alloys with Molybdenum, Y2O3 and Lanthanum. A Review

Phase Equilibria in the Fe-Mo-Nb System at 1100 °C and 1200 °C

Experimental Liquidus Surface Projection and Thermodynamic Modeling of the Fe-Mo-Nb System