Issue 48

H. S. Patil et alii, Frattura ed Integrità Strutturale, 48 (2019) 377-384; DOI: 10.3221/IGF-ESIS.48.36 380 Welding Specimen Welding Current(A) Voltage(V) Welding Gap(mm) Gas Flow Rate(lit/min) 1 90 95 0.5 20 2 95 95 0.75 25 3 100 95 1 30 4 90 95 0.75 20 5 95 95 1 25 6 100 95 0.5 30 7 90 95 1 20 8 95 95 0.5 25 9 100 95 0.75 30 Table 4: Orthogonal array L9 R ESULT AND DISCUSSION Radiography Analysis y using Radiographic unit, X-Ray radiographic inspection was carried out on weld samples as per radiography standard methods ASME section-VIII Div-I. In radiographic test 30Ci & Iridium Ir192 was used as radioactive source. The RT Technique was S.W.S.I. with sensitivity of 2% and 5 minutes of developing time. The film used was Agfa D-4 and the radiographs indicated welds with different defects. The table-5 indicated concluding radiography observations and remarks of the welded joints. Weld Specimen Welding Current Gas Flow Rate Welding Gap Observation Remarks 1 90 20 0.5 Porosity Acceptable 2 90 25 0.75 Porosity Acceptable 3 90 30 1 Lack of Penetration Rejected 4 95 20 0.75 Lack of Fusion Acceptable 5 95 25 1 No Significant Defects Acceptable 6 95 30 0.5 Porosity/Lack of Penetration Rejected 7 100 20 1 Porosity Acceptable 8 100 25 0.5 Porosity Acceptable 9 100 30 0.75 Porosity/ Lack of Fusion Reject Table- 5: Radiography observation/remarks of v-joints The presence of porosity, lack of penetration and fusion in TIG welded joints was observed in Ti-Gr2. The low density of titanium alloys enables the in depth of penetration of radiation in welded structures, allowing for the observation of porosity. T ENSILE P ROPERTIES A NALYSIS ensile tests have conducted on universal testing machine to determine the yield strength and ultimate tensile strength of the welded specimens. The specimens used for tensile testing were cut from welded samples using water jet machine. The dimension of tensile specimen as per ASTM-E8 has been represented by figure-2. B T