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Mechanical and corrosion properties of Friction Stir Welded and Tungsten Inert Gas welded phosphor bronze

Gopi S., Mohan Dhanesh G., Natarajan Elango

Advances in Materials Science

2023

Vol. 23, nr 4(78)

83--98

This study investigated the mechanical and corrosion properties of Friction Stir Welded (FSW) and Tungsten Inert Gas (TIG) welded phosphor bronze (CuSn4) joints. Corrosion tests were conducted on the welded joints, and the percentage of weight loss due to corrosion was measured at different time intervals. Results revealed that the percentage of weight loss due to corrosion of the TIG joint increased with time, whereas the percentage of weight loss due to corrosion of the FSW welded joint remained constant. This could be attributed to recrystallisation that happened in the solid-state welding, which reduced corrosion in the FSW welded joint. In addition, tensile tests were conducted to evaluate the strength of the joints. FSW with a spindle speed of 1300 rpm, weld speed of 0.06mm/sec, plunge depth of 0.25mm, pin profile of pentagon, and flat shoulder profile was found to produce good results. TIG welding with a welding speed of 1.75mm/sec, a gas flow rate of 7.5 cm3/min and an amperage of 120A also produced good results. The tensile strength of FSW was found to be approximately 1.6 times higher than that of TIG welding.

Kształtowanie struktury i twardości brązu fosforowego UNS C51100 zgniotem i wyżarzaniem

Szykowny T., Romanowski Ł.

Inżynieria i Aparatura Chemiczna

2012

Nr 5

254-255

Brąz fosforowy UNS C51100 w postaci pasów o grubości 0,4 mm wyżarzono w temperaturze 600°C. Wyżarzony brąz walcowano na zimno ze zgniotem 20,40,60 lub 80%. Twardość brązu wzrosła od 90 HV do 240 dla Z = 80%. Zgnieciony brąz wyżarzano w temperaturze od 100 do 700°C. Z równania Avrami'ego wyznaczono temperaturę rekrystalizacji, która dla zgniotu 60% wynosi 408°C. Temperatura rekrystalizowania zawiera się przedziale 450 + 500°C. Dalszy wzrost temperatury skutkuje rozrostem ziaren.

UNS C51100 phosphor bronze in a form of 0.4 mm strips was subjected to full annealing at 600°C. The annealed bronze was cold rolled with the cold work of 20,40, 60 and 80%. The bronze hardness increased from 90 to 240 HV for Z = 80%. The cold worked bronze was annealed at the temperatures ranging'from 100 to 700°C. Recrystallization temperature of the bronze was determined using the Avrami equation and ultimately equals 408°C for 60% of cold work. Recrystallization temperature ranged from 450 to 500°C. A further increase in temperature resulted in grain growth.