Question 3 (a) Figure 4 on the right shows a large Metal Z alloy plate with a critical stress-intensity factor of 50 (MPa ✓m). Given the value of the geometrical function, f= 5.15 and the fact that this plate fractures at a stress of 200 MPa, i. Calculate the maximum center crack length of this plate. ii. Metal Z will/will not fracture when put under the following conditions: 1 1 1 K₁=fo Ja geometrical function H↓↓ Condition 1: Undergo fracture at a maximum center crack of 1.2mm Condition 2: Does not undergo fracture at a maximum centre crack of 0.8 mm. Figure 4 Determine the minimum stress level that will lead to fracture in Condition 1 and the maximum stress level that will not lead to fracture in Condition 2. Explain and show all your working clearly.

Question 3 (a) Figure 4 on the right shows a large Metal Z alloy plate with a critical stress-intensity factor of 50 (MPa ✓m). Given the value of the geometrical function, f= 5.15 and the fact that this plate fractures at a stress of 200 MPa, i. Calculate the maximum center crack length of this plate. ii. Metal Z will/will not fracture when put under the following conditions: 1 1 1 K₁=fo Ja geometrical function H↓↓ Condition 1: Undergo fracture at a maximum center crack of 1.2mm Condition 2: Does not undergo fracture at a maximum centre crack of 0.8 mm. Figure 4 Determine the minimum stress level that will lead to fracture in Condition 1 and the maximum stress level that will not lead to fracture in Condition 2. Explain and show all your working clearly.

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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