10) If this material is subjected to a stress amplitude of 450MPA, approximately how many cycles of stress can the material withstand before failure?

Structural Analysis
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Chapter2: Loads On Structures
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10) If this material is subjected to a stress amplitude of 450 MPa, approximately how many cycles of stress can the material withstand before failure?
Transcribed Image Text:10) If this material is subjected to a stress amplitude of 450 MPa, approximately how many cycles of stress can the material withstand before failure?
**Transcription for Educational Website:**

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**Text:**

**Use the S-N Curve below to answer the following questions**

**Diagram Explanation:**

This graph is an S-N curve, representing the relationship between stress amplitude and fatigue life (number of cycles) for a material.

- **X-axis (Horizontal):** Represents the fatigue life in cycles, on a logarithmic scale ranging from \(10^2\) to \(10^7\).
- **Y-axis (Vertical):** Represents the stress amplitude in megapascals (MPa), ranging from 0 to 550 MPa.

The curve typically shows how the stress amplitude decreases as the number of cycles to failure increases. Initially, at lower cycle counts (high stress amplitude), the material is more susceptible to fatigue. As the number of cycles increases, the stress amplitude at which the material can survive without failing also decreases, indicating improved fatigue life under lower stress conditions. This curve illustrates the fatigue behavior of materials subjected to cyclic loading.
Transcribed Image Text:**Transcription for Educational Website:** --- **Text:** **Use the S-N Curve below to answer the following questions** **Diagram Explanation:** This graph is an S-N curve, representing the relationship between stress amplitude and fatigue life (number of cycles) for a material. - **X-axis (Horizontal):** Represents the fatigue life in cycles, on a logarithmic scale ranging from \(10^2\) to \(10^7\). - **Y-axis (Vertical):** Represents the stress amplitude in megapascals (MPa), ranging from 0 to 550 MPa. The curve typically shows how the stress amplitude decreases as the number of cycles to failure increases. Initially, at lower cycle counts (high stress amplitude), the material is more susceptible to fatigue. As the number of cycles increases, the stress amplitude at which the material can survive without failing also decreases, indicating improved fatigue life under lower stress conditions. This curve illustrates the fatigue behavior of materials subjected to cyclic loading.
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