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Yield Criteria for Ductile Materials under Plane Stress01:25

Yield Criteria for Ductile Materials under Plane Stress

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In designing structural elements and machine parts using ductile materials, it is crucial to ensure that these components withstand applied stresses without yielding. Yielding is initially determined through a tensile test, which evaluates the material's response to uniaxial stress. However, tensile stress is insufficient when components face biaxial or plane stress conditions This condition requires advanced criteria to predict failure.
The Maximum Shearing Stress Criterion, also known as...
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Generalized Hooke's Law01:22

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The generalized Hooke's Law is a broadened version of Hooke's Law, which extends to all types of stress and in every direction. Consider an isotropic material shaped into a cube subjected to multiaxial loading. In this scenario, normal stresses are exerted along the three coordinate axes. As a result of these stresses, the cubic shape deforms into a rectangular parallelepiped. Despite this deformation, the new shape maintains equal sides, and there is a normal strain in the direction of the...
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Plastic Behavior01:21

Plastic Behavior

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A material's elastic behavior is characterized by the disappearance of stress once the load is removed, allowing the material to return to its original state. However, when stress surpasses the yield point, yielding commences, marking the onset of plastic deformation or permanent set. This change from elastic to plastic behavior is influenced by the peak stress value and the duration before the load is removed. An intriguing observation occurs when a specimen is loaded, unloaded, and...
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Stress-Strain Diagram - Brittle Materials01:24

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Brittle materials, including glass, cast iron, and stone, exhibit unique characteristics. They fracture without considerable change in their elongation rate, indicating that their breaking and ultimate strength are equivalent. Such materials also show lower strain levels at the point of rupture. The failure in brittle materials predominantly results from normal stresses, as evidenced by the rupture created along a surface perpendicular to the applied load. These materials do not display...
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Bending of Members Made of Several Materials01:11

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In analyzing a structural member composed of two different materials with identical cross-sectional areas, it is crucial to understand how their distinct elastic properties affect the member's response under load. The analysis involves assessing stress and strain distributions using the transformed section concept, which accounts for variations in material properties.
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Dynamic Modulus of Elasticity of Concrete01:16

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The dynamic modulus of elasticity assesses how a concrete structure deforms under impact or dynamic loads. It is typically higher than the static modulus of elasticity, measured under slow, steady loading conditions.
The sonic test is a common method to determine the dynamic modulus. In this test, a concrete beam, sized either 6 x 6 x 30 inches or 4 x 4 x 20 inches, is clamped at its center. Vibrations are initiated at one end of the beam by an electromagnetic exciter unit powered by a...
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Related Experiment Video

Updated: Mar 10, 2026

Optimized Sealing Process and Real-Time Monitoring of Glass-to-Metal Seal Structures
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Optimized Sealing Process and Real-Time Monitoring of Glass-to-Metal Seal Structures

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An improved computational constitutive model for glass.

Timothy J Holmquist1, Gordon R Johnson2, Charles A Gerlach2

  • 1Southwest Research Institute, Inc., 5353 Wayzata Boulevard, Minneapolis, MN 55416, USA tholmquist@swri.org.

Philosophical Transactions. Series A, Mathematical, Physical, and Engineering Sciences
|December 14, 2016
PubMed
Summary
This summary is machine-generated.

This study introduces an improved computational model for glass under extreme conditions, reducing mesh dependency and enhancing accuracy. The new model better predicts material behavior, aligning with experimental data for improved simulations of high-strain-rate events.

Keywords:
constitutive modeldamageglassmultiple impacts

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Area of Science:

  • Materials Science
  • Computational Mechanics
  • Solid Mechanics

Background:

  • Previous models for glass under large strains, high strain rates, and high pressures exhibited significant mesh dependency.
  • This mesh dependency led to inaccurate predictions of material strength, overestimating it considerably.

Purpose of the Study:

  • To present an improved computational model for glass that overcomes the mesh dependency issues of prior models.
  • To enhance the accuracy of simulations for glass behavior under extreme mechanical loading conditions.

Main Methods:

  • Developed a new formulation for representing interior and surface strength in glass models.
  • Decoupled the damage model from the strength model for greater flexibility.
  • Incorporated a pressure-dependent variable shear modulus.

Main Results:

  • The improved model demonstrates significantly reduced mesh dependency.
  • Accurate representation of laboratory data, including high tensile strength in plate-impact spall experiments.
  • Converged solutions show good agreement with ballistic experimental data, including damage velocity.

Conclusions:

  • The enhanced glass model provides more reliable and accurate predictions for high-strain-rate scenarios.
  • The decoupling of damage and strength models offers increased flexibility in defining material deformation.
  • The model's improved agreement with experimental data validates its utility for simulating brittle material behavior.