Ductile example sentences

"Ductile" Example Sentences

1. Gold is a ductile metal that can be pounded into thin sheets.
2. The engineer needed a ductile material that could withstand high pressures.
3. Lead is a very soft and ductile metal that has a low melting point.
4. Copper wires are made from a ductile metal that conducts electricity well.
5. Aluminum foil is made by rolling aluminum, a ductile metal, into thin sheets.
6. The metal's ductility allowed it to be manipulated into various shapes and forms.
7. The engineer chose ductile steel for the construction of the building's main frame.
8. Wire is made from ductile metals that can be drawn into thin strands.
9. The clay was somewhat ductile and could be molded into various shapes.
10. Silver is a ductile metal often used for jewelry and tableware.
11. Mercury is a ductile liquid metal that is used in thermometers.
12. The metal's high ductility allowed it to be pulled into thin wires.
13. The polymer displayed some degree of ductility at high temperatures.
14. Steel's high ductility makes it ideal for wires and cables.
15. Copper's ductility allows it to be easily drawn into wires.
16. The material showed little ductility even when heated.
17. The rubber's ductility made it ideal for making bands and tubes.
18. Tin is a soft, ductile metal that can be formed into sheets and foil.
19. The material's ductility made it ideal for shaping into various vessels.
20. The metal was highly ductile and could be easily hammered into thin sheets.
21. Nickel is a ductile metal that is difficult to break or fracture.
22. The material's ductility gave it the ability to deform without fracturing.
23. The metal showed high ductility at elevated temperatures.
24. The metal's ductile nature allowed it to be easily deformed without breaking.
25. The polymer's ductility decreased at lower temperatures.
26. Glass showed almost no ductility even when heated.
27. The thin sheets of the ductile metal were easily shaped into various forms.
28. The polymer displayed a degree of ductility when hot.
29. The material's high ductility gave it the ability to be stretched extensively.
30. The metal's ductility meant it could be shaped by simple hammering or rolling.
31. Their clay was only somewhat ductile but they were able to shape it roughly.
32. The engineer chose a ductile material that could deform without fracturing.
33. Iron's ductility allowed the early smiths to forge it into tools and weapons.
34. The ceramic displayed almost no ductility, even when heated.
35. Highly ductile metals like gold can be pulled into extremely thin wires.
36. The polymer's ductility increased at higher strain rates.
37. The clay was reasonably ductile so students could form it into various shapes.
38. They formed the ductile metal into wire by pulling it through a narrow die.
39. The glass scientist needed a material with almost no ductility for his project.
40. The engineer required a material that was extremely ductile at low temperatures.
41. Metals are more ductile at higher temperatures, allowing them to be reshaped.
42. Rubber shows high ductility at room temperature which allows it to stretch.
43. Their metal showed almost no ductility at low temperatures.
44. Most polymers show some degree of ductility, especially at higher temperatures.
45. The design required a metal that was highly ductile yet very strong.
46. Their ductile ceramic allowed them to precisely form it into complex shapes.
47. Copper's high ductility makes it ideal for electrical wiring.
48. They forged the ductile metal into tools and jewelry using simple hammers.
49. Stainless steel is moderately ductile, allowing it to be drawn into wires.
50. Most metals exhibit some degree of ductility at elevated temperatures.
51. The material's low ductility meant it fractured easily when deformed.
52. The scientist needed a ductile compound that would not break under pressure.
53. Most brittle materials show little to no ductility even when heated.
54. The polymer's high ductility allowed it to be stretched extensively.
55. Silver is an extremely ductile metal that can be hammered into thin sheets.
56. Ceramics show very little ductility even when heated to high temperatures.
57. The material's high ductility gave it the ability to be hammered into thin sheets.
58. Zinc is a very ductile metal used to galvanize and plate other metals.
59. The material's ductility decreased as the temperature dropped.
60. Most plastics show some degree of ductility, especially at higher temperatures.

Common Phases

1. The metals gold and silver are both ductile.
2. The blacksmith could stretch the hot iron bar into wire because iron is ductile when heated.
3. They tested the ductility of the different metal alloys.
4. Plastic materials are ductile and can be stretched and molded into different shapes.
5. The clay was moist enough to be ductile but not wet enough to stick.
6. Ductile materials can be drawn into thin wires.
7. The engineers designed parts with both high strength and high ductility to meet the demands of the application.
8. Lead is a very soft and ductile metal.
9. Copper is highly conductive of both electricity and heat, and also moderately ductile.
10. The material exhibited excellent tensile strength but low ductility.
11. The new polymer formula created a substance that was remarkably ductile and elastic.
12. The malleability and ductility of the metal are crucial properties for its use in manufacturing.
13. The material is stronger but less ductile than the previous iteration.
14. The amount of ductility required depends on the intended application of the part.
15. Clay is an example of a ductile material when its water content is properly adjusted.
16. The new aluminum alloy had higher strength but lower ductility than traditional aluminum.
17. Ductile materials can undergo large plastic deformation without fracturing.
18. Steel must maintain adequate ductility to allow for some bending and deforming during manufacturing and use.
19. The metal alloy was specifically engineered for high ductility and formability.
20. The engineers were happy with the material's strength but wanted to improve its ductility.
21. As the material hardened, it lost some of its inherent ductility.
22. The polymer fibers exhibited excellent tensile strength and notable ductility.
23. The alloy's high ductility made it ideal for bending into different shapes during manufacturing.
24. The ceramic compound was nearly brittle, with minimal ductility.
25. Rubber is a naturally ductile material that can stretch greatly without fracturing.
26. The more ductile a material, the more it can be stretched without breaking.
27. Their design calls for highly ductile parts that can withstand significant deformation.
28. The properties of high strength and ductility are often at odds with one another.
29. The material showed excellent ductility at lower temperatures but became brittle at higher temperatures.
30. Ductility allows a material to stretch or deform without sudden fracturing or breaking.
31. The mechanical properties they desired included high tensile strength as well as ductility.
32. The clay became sufficiently ductile when mixed with just the right amount of water.
33. The engineers tested the new metal alloy for its ductility, malleability, and other important properties.
34. The stainless steel had better corrosion resistance but lower ductility than regular steel.
35. The metal sheet needed to be ductile enough to be stamped into complex shapes.
36. The polymer compound's high ductility allowed it to be easily molded and formed into different shapes.
37. Since the material was moderately ductile, it could be drawn into thin wires for electrical applications.
38. The processed metal exhibited less ductility than the raw material in its original form.
39. Beyond a certain point, any further strain hardening degraded the material's ductility.
40. The material's low ductility and high brittleness precluded its use in many applications.
41. Commercial-grade aluminum alloys sacrifice some ductility for increased strength.
42. The material's high ductility allowed it to stretch up to twice its original length before fracturing.
43. The higher the ductility of a material, the more easily it can be formed into different shapes.
44. Metals become more ductile at higher temperatures due to their crystalline structures.
45. The plastic compound's high ductility allowed it to be formed into complex and intricate shapes.
46. Ceramics tend to have very low ductility and high brittleness due to their atomic structures.
47. Magnesium is a lightweight metal known for its high strength and notable ductility.
48. The mineral was exceedingly brittle with minimal observable ductility.
49. As the temperature increased, the polymer became more ductile and moldable.
50. The metal's notable ductility and malleability made it easy to work and shape using traditional techniques.
51. Copper alloys are known for their high electrical and thermal conductivity as well as moderate ductility.
52. New strengthening mechanisms have been developed to boost metals' strength without sacrificing too much ductility.
53. Ductility decreases as a material's brittleness increases.
54. The material's ductility allowed it to be easily fabricated into intricate components using simple manufacturing methods.
55. As the clay dried out, it became less ductile and more brittle and prone to cracking.
56. Many metals have high malleability and ductility at high temperatures, making them easier to shape using forming techniques.
57. Composite materials tend to have both higher strength and higher ductility than monolithic materials.
58. Metallic glasses can exhibit a combination of high strength and high ductility due to their amorphous atomic structure.
59. The metal's pronounced ductility made it well suited for deep drawing applications in manufacturing.
60. The polymer had excellent workability and ductility, which made it ideal for extrusion molding.