Opposite of ELASTIC – 35 Antonyms With Sentence Examples

Antonyms for elastic are words that denote the opposite characteristics of elasticity. Elasticity refers to the ability of an object or material to return to its original shape or size after being stretched or compressed. In contrast, antonyms for elastic describe qualities that are rigid, inflexible, or lacking the ability to stretch or bounce back.

Synonyms for rigid, non-stretchable, or stiff are some examples of antonyms for elastic. These words encompass a range of qualities that are opposite to the flexibility and resilience associated with elasticity. Antonyms for elastic are useful in providing a clear contrast and helping to differentiate between objects or materials that exhibit different physical properties.

35 Antonyms for ELASTIC With Sentences

Here’s a complete list of opposite for elastic. Practice and let us know if you have any questions regarding ELASTIC antonyms.

Antonym Sentence with Elastic Sentence with Antonym
Inelastic The elastic band stretched easily. The fabric was rigid and inelastic.
Stiff The trampoline was bouncy and elastic. The board was hard and stiff.
Rigid The rubber band was flexible and elastic. The metal rod was inflexible and rigid.
Firm The elastic waistband was comfortable. The belt was tight and not firm.
Taut The elastic rope snapped back quickly. The slack rope was not taut at all.
Unyielding The elastic material could be stretched easily. The wall was solid and unyielding.
Inflexible The elastic band was very stretchy. The wooden stick was hard and inflexible.
Stretched The elastic waistband expanded when needed. The material was not stretched and remained taut.
Tense The elastic band tightened as it was pulled. The string felt loose and not tense at all.
Stiffened The fabric was becoming more elastic as it was stretched. The dough had stiffened and was difficult to knead.
Contract The elastic band could expand and contract easily. The fabric would not contract back to its original shape.
Unbending The elastic material could bend and stretch effortlessly. The metal rod was rigid and unbending.
Resilient The elastic band bounced back to its original shape. The material was fragile and not resilient at all.
Brittle The rubber was durable and elastic. The glass was fragile and brittle.
Tough The elastic material was stretchy and flexible. The leather was rigid and not tough.
Unresponsive The elastic band reacted quickly to any force applied. The fabric was unyielding and unresponsive.
Bendable The elastic material could be bent easily. The metal was stiff and not bendable.
Soft The elastic band was pliable and stretchy. The rock was hard and not soft.
Floppy The rubber band was elastic and could stretch easily. The cardboard was stiff and not floppy.
Lax The elastic waistband provided comfort and flexibility. The rope was loose and lax.
Slack The elastic band had some give when stretched. The rope was tight and not slack at all.
Supple The fabric was soft and elastic. The plastic was rigid and not supple.
Compressible The elastic material could be compressed easily. The foam was hard and not compressible.
Unyielding The elastic band could stretch without breaking. The metal was sturdy and unyielding.
Unstretchable The rubber band was very elastic. The fabric was unyielding and unstretchable.
Stiff The elastic waistband stretched with ease. The wire was rigid and stiff.
Hardened The rubber was malleable and elastic. The clay had hardened and was difficult to mold.
Tough The elastic band was stretchy and durable. The fabric was weak and not tough.
Limber The elastic material was flexible and bendable. The steel rod was stiff and not limber.
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Final Thoughts about Antonyms of ELASTIC

In comparison to flexible materials, rigid substances lack the ability to stretch and adapt easily to changes in shape or size. While flexible materials like rubber can expand and contract, stiff materials such as metal remain inflexible and resistant to deformation. The contrasting properties of elasticity and rigidity play crucial roles in determining the functional capabilities and practical applications of various materials.

Understanding the differences between elasticity and rigidity is essential for selecting the most suitable materials for specific purposes. Whether it is for designing tools, constructing buildings, or creating clothing, the choice between materials with elastic or rigid properties can greatly impact the performance and durability of the end product. By recognizing the unique characteristics of each type of material, one can make informed decisions to meet the desired requirements and optimize the functionality of various products.