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Justyna Jupowicz-Kozak
CEO of Professional Science Editing for Scientists @ prosciediting.com
crack growth
Grammar usage guide and real-world examplesUSAGE SUMMARY
"crack growth" is correct and usable in written English.
You can use it in phrases such as "the crack growth was accelerated due to shifting temperatures."
✓ Grammatically correct
Science
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
60 human-written examples
(b) Crack length vs. crack growth rate.
The arrows indicate the crack growth direction.
The homogeneous fiber distribution stabilizes crack growth.
However, crack growth did not arrest.
A model for prediction of crack growth and crack growth rate following single overloads is presented.
Creep crack growth life is predicted based on short-term uniaxial creep crack growth (CCG) data.
(d) Cyclic induced stress intensity parameter vs. crack growth rate.
(c) Cyclic applied stress intensity parameter vs. crack growth rate.
Paris law was employed to predict crack growth rates.
Last stage is the Stage III crack growth.
Then comes the Stage II, i.e. crack growth.
Expert writing Tips
Best practice
When discussing "crack growth", specify the influencing factors, such as material properties, stress levels, and environmental conditions, to provide a comprehensive analysis.
Common error
Be specific about the type of "crack growth" you are discussing. Terms like fatigue crack growth, stress corrosion cracking, or creep crack growth each have distinct mechanisms and implications.
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84%
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Real-world application tested
Linguistic Context
The phrase "crack growth" functions primarily as a noun phrase. It typically acts as the subject or object of a sentence, describing the phenomenon of a crack increasing in size over time. As Ludwig AI confirms, this term is correct and widely used in English.
Frequent in
Science
100%
Less common in
News & Media
0%
Formal & Business
0%
Encyclopedias
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Ludwig's WRAP-UP
The phrase "crack growth" is a noun phrase commonly used in scientific and engineering fields to describe the propagation of cracks in materials. Ludwig AI confirms its grammatical correctness and usability. Primarily found in scientific literature, understanding the factors influencing "crack growth" is crucial for predicting material failure and ensuring structural integrity. Alternative phrases like "fracture propagation" and "crack propagation" can be used depending on the specific nuance you want to convey. When writing about "crack growth", be precise about the type of "crack growth" and its influencing factors for clarity.
More alternative expressions(10)
Phrases that express similar concepts, ordered by semantic similarity:
fracture propagation
Focuses on the movement of the fracture itself.
crack propagation
Emphasizes the spreading of the crack.
failure progression
Highlights the overall process of something failing due to cracking.
damage evolution
Describes the changes in damage over time.
defect enlargement
Focuses on the increasing size of a defect or flaw.
structural degradation
Highlights the declining quality of a structure.
material fatigue
Refers to the weakening of a material due to repeated stress.
stress corrosion cracking
Specifies a type of cracking caused by stress and corrosion.
subcritical crack extension
Describes crack extension under sustained load or environment.
incremental fracture
Emphasizes the step-by-step nature of the fracture process.
FAQs
How is "crack growth" measured?
"Crack growth" can be measured using various techniques, including visual inspection, microscopy, strain gauges, and ultrasonic testing. The specific method depends on the material, crack size, and application.
What factors influence the rate of "crack growth"?
The rate of "crack growth" is influenced by stress intensity, material properties, environmental conditions, and loading frequency. Higher stress, weaker materials, corrosive environments, and higher frequencies typically accelerate "crack growth".
What are some strategies to mitigate "crack growth" in engineering structures?
Strategies include selecting more durable materials, reducing stress concentrations through design, applying protective coatings, and implementing regular inspection and maintenance programs. The use of techniques like "shot peening" can also help.
How does fatigue affect "crack growth"?
Fatigue causes cracks to initiate and grow under cyclic loading conditions, even when the applied stress is below the material's yield strength. This process eventually leads to structural failure if not managed properly. Understanding fatigue crack growth mechanisms is critical for predicting component lifespan and safety.
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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
84%
Authority and reliability
4.5/5
Expert rating
Real-world application tested