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stress at failure
Grammar usage guide and real-world examplesUSAGE SUMMARY
The phrase "stress at failure" is correct and usable in written English.
It is typically used in engineering and materials science to refer to the amount of stress a material can withstand before it fails or breaks. Example: "The stress at failure for this composite material was determined to be significantly higher than that of traditional metals."
✓ Grammatically correct
Science
Alternative expressions(4)
Table of contents
Usage summary
Human-verified examples
Expert writing tips
Linguistic context
Ludwig's wrap-up
Alternative expressions
FAQs
Human-verified examples from authoritative sources
Exact Expressions
59 human-written examples
Average bond shear stress at failure.
Bending stress at failure is negligible compared to direct stress.
Science
The results demonstrate that normal stress at failure (σ1f) increases with increase in confining pressure.
Open image in new window Fig. 3 Relationship between axial stress at failure and confining stress for samples used.
The fracture toughness KIC was calculated from the pre-crack length and the stress at failure.
Science
The nominal stress at failure varied significantly with interface dimensions, thus invalidating its use as a fracture criterion.
Mean fracture load was 5.6 ± 2.1 N, and mean circumferential stress at failure was 9.5 ± 4.1 MPa.
Science
The ultimate value of the axial tensile stress at failure and the associated orientation of the failure plane are discussed.
Axial stress at failure and confining pressure values obtained from the triaxial compression tests are used to plot Mohr Coulomb circles, Fig. 1.
This reduction in the bond stress at failure was more pronounced in the FRE specimens than in the FRCM specimens.
Human-verified similar examples from authoritative sources
Similar Expressions
1 human-written examples
This analysis determined the mean Young's modulus (Ē), mean maximum von Mises stress-at-failure (σ̄VM,f) and mean maximum von Mises strain-at failure (ε̄VM,f) to be Ē=150±15 MPa, σ̄VM,f=70±4 MPa and ε̄VM,f=0.75±0.08, respectively.
Science
Expert writing Tips
Best practice
When discussing material properties, clearly define the type of stress (tensile, compressive, shear) being referred to in relation to the "stress at failure".
Common error
Avoid using "stress at failure" and yield strength interchangeably. Yield strength refers to the point where permanent deformation begins, while "stress at failure" is when the material actually breaks.
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Real-world application tested
Linguistic Context
The phrase "stress at failure" functions as a noun phrase, specifically a compound noun, that describes a material property. It quantifies the amount of stress a material can withstand before it fractures or undergoes permanent structural damage. This is confirmed by Ludwig AI.
Frequent in
Science
100%
Less common in
News & Media
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Formal & Business
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Encyclopedias
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Ludwig's WRAP-UP
"Stress at failure" is a technical term denoting the maximum stress a material can endure before breaking. Ludwig AI confirms that the phrase is grammatically correct and most frequently appears in scientific contexts. Related phrases include "failure stress" and "ultimate tensile strength". A key writing tip is to specify the type of stress (tensile, compressive, or shear) being referenced. Avoid confusing "stress at failure" with "yield strength", which indicates the point of permanent deformation, not breakage. This phrase is very common in technical and scientific writing.
More alternative expressions(6)
Phrases that express similar concepts, ordered by semantic similarity:
failure stress
Swaps the position of the words while maintaining the same core meaning.
fracture strength
Highlights the stress level that leads to a fracture.
ultimate tensile strength
Focuses specifically on the tensile (pulling) force a material can withstand before breaking.
rupture stress
Emphasizes the stress that causes a material to tear or burst.
breaking point
A more general term indicating the point at which something breaks or fails under stress.
yield strength
Refers to the stress at which a material begins to deform permanently, though not necessarily breaking.
mechanical strength limit
Broader term capturing the maximum stress a material can endure before failure.
material's breaking resistance
Expresses the capacity of a material to resist breaking under stress.
maximum load capacity
Highlights the maximum load a material can bear before failing.
critical stress intensity
Focuses on the stress intensity factor at which a crack will propagate leading to failure.
FAQs
How is "stress at failure" measured?
The "stress at failure" is typically measured in units of pressure (e.g., Pascals or psi) and is determined experimentally through mechanical testing, such as tensile or compression tests.
What factors influence the "stress at failure" of a material?
Several factors can influence the "stress at failure", including material composition, temperature, processing methods, and the presence of defects. Environmental conditions can also play a significant role.
What's the difference between "yield strength" and "stress at failure"?
Yield strength is the point at which a material begins to deform permanently, whereas "stress at failure" is the stress required to cause complete fracture or breakage. "Stress at failure" is always higher than yield strength.
What are some synonyms for "stress at failure"?
Alternatives include "failure stress", "ultimate tensile strength" (if under tension), or "fracture strength", depending on the specific context and type of loading applied.
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Table of contents
Usage summary
Human-verified examples
Expert writing tips
Linguistic context
Ludwig's wrap-up
Alternative expressions
FAQs
Source & Trust
83%
Authority and reliability
4.4/5
Expert rating
Real-world application tested