Piping under external pressure typically fails due to which phenomenon?

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Prepare for the ASME Code Standards Test for Pressure Vessels and Piping Engineering. Utilize multiple-choice questions and detailed explanations to bolster your understanding and confidence. Excel in your exam with comprehensive study resources!

Multiple Choice

Piping under external pressure typically fails due to which phenomenon?

Explanation:
External pressure compresses the pipe wall, and slender cylindrical shells tend to lose stability before the material yields. When the compressive stress reaches a critical level, a small imperfection can trigger a large lateral deflection, so the structure buckles elastically. This instability-driven collapse occurs at stresses below the yield strength, which is why elastic buckling is the typical failure mode under external pressure for piping. Plastic yielding would require the material to reach and exceed its yield strength, which is not the immediate cause of collapse in many external-pressure scenarios. Fracture would need a crack and high localized stress, not the general stability loss from external compression. Thermal creep involves time-dependent deformation at high temperature, not the instantaneous instability that characterizes buckling under external pressure.

External pressure compresses the pipe wall, and slender cylindrical shells tend to lose stability before the material yields. When the compressive stress reaches a critical level, a small imperfection can trigger a large lateral deflection, so the structure buckles elastically. This instability-driven collapse occurs at stresses below the yield strength, which is why elastic buckling is the typical failure mode under external pressure for piping.

Plastic yielding would require the material to reach and exceed its yield strength, which is not the immediate cause of collapse in many external-pressure scenarios. Fracture would need a crack and high localized stress, not the general stability loss from external compression. Thermal creep involves time-dependent deformation at high temperature, not the instantaneous instability that characterizes buckling under external pressure.

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