Choose test sample: 0 mm edge crack ✰ Image data type Shear strain Axial strain strain Image only Vertical Transverse displacement Frame: Load frame Strain: 3.57821E- Frame: 1 of Force 366 Displacement (KN): 0.0116892 (mm): -0.0195326 7 Position [mm] 25.0- 22.5- 20.0- 17.5- 15.0- 12.5- 10.0- 7.5- 5.0- 2.5- 0.0- -2.5- -5.0- -7.5- -10.0- -12.5- -15.0- -17.5- -20.0- -22.5- -25.0- -27.5- -30.0- -32 -28 -24 -20 -16 -12 -8 8 12 16 20 24 28 32 Position [mm] Horizontal position (mm): 0 Get sample Vertical position (mm): 0 Get sample 1700 -1600 1500 1400 -1300 -1200 1100 1000 900 800 700 600 500 400 300 200 100 Image intensity [counts) Using the four-point bending tool, detail the influence of both applied load and notch size on the transverse strain. Cover the following points in your answer. a. A detailed description of the methodology you have used to create a set of results suitable to answer this question. Include details on the placement of line scans, the loads used, etc. (there is no need to describe the process of extracting the data from the interactive or the fundamental principles behind DIC). (5 marks) b. A description of the results you have found, including a written description, images, and both vertical and horizontal line scans from the four-point bending tool. Include a minimum of three loads and three notch sizes in your results. (20 marks) c. The conclusions you can make regarding the influence of load and notch size on the strain experienced by the beam based on the data you collect. (5 marks) To achieve full marks, you will need to include the following in your work: • properly labelled graphs and data • appropriate captions for each figure reference to each figure within your written answer.

Transcribed Image Text:

Choose test sample: 0 mm edge crack ✰ Image data type Shear strain Axial strain strain Image only Vertical Transverse displacement Frame: Load frame Strain: 3.57821E- Frame: 1 of Force 366 Displacement (KN): 0.0116892 (mm): -0.0195326 7 Position [mm] 25.0- 22.5- 20.0- 17.5- 15.0- 12.5- 10.0- 7.5- 5.0- 2.5- 0.0- -2.5- -5.0- -7.5- -10.0- -12.5- -15.0- -17.5- -20.0- -22.5- -25.0- -27.5- -30.0- -32 -28 -24 -20 -16 -12 -8 8 12 16 20 24 28 32 Position [mm] Horizontal position (mm): 0 Get sample Vertical position (mm): 0 Get sample 1700 -1600 1500 1400 -1300 -1200 1100 1000 900 800 700 600 500 400 300 200 100 Image intensity [counts)

Transcribed Image Text:

Using the four-point bending tool, detail the influence of both applied load and notch size on the transverse strain. Cover the following points in your answer. a. A detailed description of the methodology you have used to create a set of results suitable to answer this question. Include details on the placement of line scans, the loads used, etc. (there is no need to describe the process of extracting the data from the interactive or the fundamental principles behind DIC). (5 marks) b. A description of the results you have found, including a written description, images, and both vertical and horizontal line scans from the four-point bending tool. Include a minimum of three loads and three notch sizes in your results. (20 marks) c. The conclusions you can make regarding the influence of load and notch size on the strain experienced by the beam based on the data you collect. (5 marks) To achieve full marks, you will need to include the following in your work: • properly labelled graphs and data • appropriate captions for each figure reference to each figure within your written answer.