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Fracture mechanics
Contributed by: O'Reilly
  • 1. Fracture mechanics is a field of study within materials science and mechanical engineering that focuses on understanding how and why materials fail under stress, and how fractures can be predicted and prevented. It involves the study of crack propagation, stress concentrations, and the behavior of materials under loading conditions. By analyzing the mechanisms of fracture, researchers can develop strategies to improve the durability and reliability of materials in various applications, such as designing stronger buildings, safer aircraft, and more durable consumer products.

    What is fracture mechanics?
A) Study of the properties of solid materials
B) Study of the behavior of cracks in materials
C) Study of the manufacturing of materials
D) Study of the formation of cracks in materials
  • 2. What is the role of a crack tip plastic zone in fracture mechanics?
A) Part of a material susceptible to corrosion
B) Region where plastic deformation occurs around a crack tip
C) Area where cracks start to develop
D) Location of maximum stress concentration
  • 3. Which parameter indicates a material's resistance to crack propagation?
A) Ductility
B) Yield strength
C) Elastic modulus
D) Fracture toughness
  • 4. What are the three modes of crack loading in fracture mechanics?
A) Axial, Radial, Tangential
B) Elastic, Plastic, Brittle
C) Tension, Compression, Shear
D) Mode I, Mode II, Mode III
  • 5. What is the concept of a fatigue limit in fracture mechanics?
A) Critical flaw size in a material
B) Minimum stress a material requires for deformation
C) Point of fracture initiation
D) Maximum stress a material can withstand without fatigue failure
  • 6. How does temperature affect fracture toughness?
A) Increases at higher temperatures
B) Increases at lower temperatures
C) Remains constant regardless of temperature
D) Decreases at lower temperatures
  • 7. How does stress concentration affect the likelihood of fracture initiation?
A) Increases likelihood of fracture initiation
B) Decreases likelihood of fracture initiation
C) Delays fracture initiation
D) Has no effect on fracture initiation
  • 8. How does crack geometry influence fracture mechanics?
A) Affects stress distribution near the crack tip
B) Reflects the temperature of the material
C) Impacts chemical composition of the material
D) Determines material density
  • 9. What is a crack propagation direction in fracture mechanics?
A) Direction of stress applied to a material
B) Direction of material deformation
C) Direction in which a crack grows in a material
D) Orientation of material grain boundaries
  • 10. Which parameter is used to characterize the ability of a material to absorb energy before fracture?
A) Plasticity
B) Stiffness
C) Toughness
D) Hardness
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