please in a clear answer find me those: the yield stress the ultimate tensile stress(uts) breaking...
please in a clear answer find me those: the yield stress the ultimate tensile stress(uts) breaking strain 50.30 11.15 6.00 26.00 R1.00 0 11.00 R1.50 04.00 07.14 Load (N) Tool Steel 25000 Break 20000 15000 10000 5000 000 3.0 40 00 20 Machine Extension (mm)
please in a clear answer find me those and using the table for (polyprolene): the yield stress the ultimate tensile stress(uts) breaking strain Dimension of Polymer Samples Sample Name Polyethylene Polypropylene Epoxy Rubber Width(mm) 12 12 12 4 Thickness (mm) 3 3 5 2 Gauge length (mm) 42 42 42 14 C/Users/alkha/Downloads/Experiment%201.pdf Load (N) Polypropylene (thermoplastic) 1500 1000 Bro 500 00 0.0 60 150 20.0 10.0 Machine Extension (mm)
please in a clear answer find me those and using the table for (polyethlene): the yield stress the ultimate tensile stress(uts) breaking strain Dimension of Polymer Samples Sample Name Polyethylene Polypropylene Epoxy Rubber Width(mm) 12 12 12 4 Thickness (mm) 3 3 5 2 Gauge length (mm) 42 42 42 14 w You X Pos X 6 px Q (68) X e Ten: X 0 im x (68 X SAFX in File C/Users/alkha/Downloads/Experiment%201.pdf Load (N) Polyethylene (thermoplastic) 1000 900 800...
please in a clear answer find me those and use table for (Epoxy): the yield stress the ultimate tensile stress(uts) breaking strain Dimension of Polymer Samples Sample Name Polyethylene Polypropylene Epoxy Rubber Width(mm) 12 12 12 4 Thickness (mm) 3 3 5 2 Gauge length (mm) 42 42 42 14 Load (N) Epoxy (thermoset) 1500 Break 1000- 500 0.0 Machine Extension (mm)
this is a lab please provide me with clear answeres and measure : - yeild stress - ultimate tensile stress -breaking strain -young's modulus 52.70 7.00 35.70 R1.50 00'ιιο Φ7.14 Load (N) Aluminium 6000 5000 4000 3000 2000 1000 000 100 50 Machine Extension (mm)
Try to make your answer short and clear to be easier for me to understand, please. Thank you Problem 1 (50 points) Stress Strain Curve Three steel bars with a diameter of 0.5 in, and carbon content of 0.2, 0.5, and 0.8%, respectively The specimens were subjected to tension until rupture. The load versus deformation results were as shown in the table below If the gauge length is 2 in., determine the following a. The tensile stresses and strains for...