The raw data that is recorded by the uniaxial test frame is generated in the following...

Transcribed Image Text:

The raw data that is recorded by the uniaxial test frame is generated in the following format: Data point number, Elongation (mm), Load (kN). Which calculations are required to convert the load to stress and the elongation to strain? Please select each answer that is correct. Dividing the "Load" column by the starting cross-sectional area, approximately 19.63 mm and multiplying by 0.001 to get the stress in MPa. Multiplying the "Load" column by 1000, and then dividing by the initial cross-sectional area, approximately 19.63 mm, to get the stress in MPa. Dividing the "Load" column by the starting cross-sectional area, approximately 78.54 mm, and multiplying by 0.001 to get the stress in MPa. Adding the elongation to the initial gauge length and dividing this by the gauge length to get strain in percent. Subtracting the elongation from the initial gauge ngth and dividing this by the gauge length to get strain as a ratio. Dividing the elongation by the initial gauge length to get strain as a percentage. Dividing the elongation by the initial gauge length to get strain as a ratio. The raw data that is recorded by the uniaxial test frame is generated in the following format: Data point number, Elongation (mm), Load (kN). Which calculations are required to convert the load to stress and the elongation to strain? Please select each answer that is correct. Dividing the "Load" column by the starting cross-sectional area, approximately 19.63 mm and multiplying by 0.001 to get the stress in MPa. Multiplying the "Load" column by 1000, and then dividing by the initial cross-sectional area, approximately 19.63 mm, to get the stress in MPa. Dividing the "Load" column by the starting cross-sectional area, approximately 78.54 mm, and multiplying by 0.001 to get the stress in MPa. Adding the elongation to the initial gauge length and dividing this by the gauge length to get strain in percent. Subtracting the elongation from the initial gauge ngth and dividing this by the gauge length to get strain as a ratio. Dividing the elongation by the initial gauge length to get strain as a percentage. Dividing the elongation by the initial gauge length to get strain as a ratio.

Answer rating: 100% (QA)

The correct calculations required to convert the load to stre... View the full answer