strength of material

USAGE SUMMARY

The phrase "strength of material" is correct and usable in written English.
It is typically used in engineering and materials science to refer to the ability of a material to withstand applied forces without failure. Example: "The strength of material is a crucial factor in determining the safety and durability of structural components."

✓ Grammatically correct

Science

Human-verified examples from authoritative sources

Exact Expressions

35 human-written examples

Ultimate strength of material [N/m2].

International Journal of Energy and Environmental Engineering

Yield strength of material [N/m2].

International Journal of Energy and Environmental Engineering

The flexural strength of material with 1.5% VMA measures 67% of the mould-casted ones.

International Journal of Concrete Structures and Materials

Ultimate tensile strength of material increases with increase in percentage of MWCNT and%Elongation reduces.

Materials Today: Proceedings

Impact strength of material increases with increase in percentage of MWCNT.

Materials Today: Proceedings

The chapter ends with a focus on indeterminate structures and strength of material.

Structural Elements for Architects and Builders Design of Columns, Beams and Tension Elements in Wood, Steel and Reinforced Concrete

Human-verified similar examples from authoritative sources

Similar Expressions

25 human-written examples

Furthermore, he discussed relations to strength-of-material theories.

International Journal of Solids and Structures

Through sequential coupling of the differential equations for interfacial shearing and peeling stresses, concise closed-form strength-of-material solutions for these stresses in symmetric and non-symmetric sandwich structures subjected to the combined loadings of temperature, stretching, and bending have been developed.

Composite Structures

In Siena he had begun a new book on the sciences of motion and strength of materials.

Encyclopedia Britannica

Watt experimented on the strength of materials, and he was often involved in legal proceedings to protect his patents.

Encyclopedia Britannica

However, this first science is not about the strength of materials per se.

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Expert writing Tips

Best practice

When discussing specific applications or testing methods, be precise about the type of "strength of material" you are referencing (e.g., tensile, compressive, yield) to ensure clarity and accuracy.

Common error

Avoid using "strength of material" without context. Specify the type of stress the material is subjected to (e.g., tension, compression, shear) to avoid ambiguity and ensure your audience understands the relevant mechanical property.

Linguistic Context

The phrase "strength of material" functions primarily as a noun phrase, often serving as the subject or object of a sentence. It refers to a fundamental property that determines a material's ability to withstand forces without failing. Ludwig provides numerous examples of this usage in various scientific and engineering contexts.

Expression frequency: Very common

Frequent in

Science

97%

Encyclopedias

1%

News & Media

1%

Less common in

Formal & Business

0%

Social Media

0%

Wiki

0%

Ludwig's WRAP-UP

The phrase "strength of material" is a fundamental concept in engineering and materials science, denoting a material's ability to withstand applied forces without failure. Ludwig AI affirms its correctness and usability in written English. As a noun phrase, it commonly appears in formal and scientific contexts. It's crucial to be precise about the type of strength (tensile, compressive, etc.) when using the phrase and avoid overgeneralization. The concept is very common across scientific literature. Related phrases like "material strength" and "load-bearing capacity" offer alternative ways to express similar ideas, focusing on conciseness or specific applications.

More alternative expressions

Phrases that express similar concepts, ordered by semantic similarity:

material strength

Reorders the words for conciseness; commonly used in engineering contexts.

material's resistance to force

Emphasizes the resistance aspect, suitable when highlighting a material's defensive capability against applied forces.

mechanical strength of material

Adds specificity, clarifying the type of strength being referenced.

structural integrity

Focuses on the overall ability of a structure to maintain its form under load, shifting the emphasis from the material itself to the resulting stability.

load-bearing capacity

Highlights the material's ability to support weight or external forces, useful in structural engineering contexts.

material durability

Emphasizes the lasting quality and resistance to wear and tear, important in long-term applications.

resistance to deformation

Focuses on how well a material avoids changing shape under stress, relevant in contexts like metal forming or high-pressure environments.

tensile strength

Specifically refers to the material's ability to withstand pulling forces, providing a more focused description.

compressive strength

Specifically indicates the material's ability to withstand squeezing forces, allowing for precise communication about a specific attribute.

yield strength

Highlights the point at which the material begins to deform permanently, crucial for predicting performance under stress.

FAQs

How is "strength of material" measured?

The "strength of material" is measured through various tests, including tensile tests, compression tests, and flexural tests. Each test assesses how well the material withstands different types of forces before deformation or failure.

What factors affect the "strength of material"?

Factors influencing the "strength of material" include the material's composition, temperature, processing methods, and the presence of defects. For example, heat treatments can increase the "yield strength" of steel.

What is the difference between "strength of material" and hardness?

"Strength of material" refers to a material's ability to withstand stress, whereas hardness measures its resistance to localized plastic deformation, typically by indentation. While related, they measure different aspects of a material's mechanical behavior.

How can I improve the "strength of material" in a design?

You can improve the "strength of material" by selecting appropriate materials, optimizing the design to distribute stress evenly, and using treatments like work hardening or surface coating to enhance the material's inherent resistance to stress. Also consider using "composite materials".