Alloys example sentences

"Alloys" Example Sentences

1. Steel and other metal alloys have many industrial uses.
2. Titanium alloys are strong and lightweight, making them useful in aircraft components.
3. Gold alloys are often used in jewelry because of gold's malleability and resistance to corrosion.
4. Bronze, an alloy of copper and tin, was one of the earliest alloys used by humans.
5. Stainless steel alloys contain high amounts of chromium, making them resistant to rust and corrosion.
6. Copper alloys are widely used due to copper's high electrical and thermal conductivity.
7. Brass, an alloy of copper and zinc, is valued for its malleability, ductility, and corrosion resistance.
8. Super alloys made from nickel are used for jet turbine engine components that operate at high temperatures.
9. Platinum alloys, containing platinum and metals like palladium and ruthenium, are resistant to corrosion and wear.
10. Dental alloys used for fillings, crowns, and bridges contain metals like gold, silver, palladium, and copper.
11 Aluminum alloys are lightweight yet strong, so they are used in transportation and construction applications.
12. The properties of metal alloys depend largely on the constituent metals and their respective percentages.
13. Different aluminum alloys are used for structural beams and aircraft hulls due to their varying strength and density.
14. Sterling silver is an alloy of silver with a small percentage of copper to increase its strength and durability.
15. Cast iron is an alloy of iron, carbon, and silicon that is used for parts requiring strength, hardness, and low cost.
16. Metal alloys allow us to tune material properties for optimal performance in specific applications and environments.
17. Shape memory alloys, like nitinol alloy made from nickel and titanium, can return to their pre-deformed shapes.
18. The tin content in bronze alloys affects properties like hardness, strength, and corrosion resistance.
19. Beryllium alloys are lightweight yet extremely stiff, making them used for spacecraft components and rocket nozzles.
20. High-performance steels are alloys made with elements like chromium, nickel, molybdenum, and vanadium.
21. Semiconductor alloys formed by mixing elements from groups III and V are used to make transistors and lasers.
22. Metal matrix composites are made by embedding ceramic or carbon fibers into metal alloys like aluminum and titanium.
23. Galvanized steel is a zinc alloy coating applied to steel to prevent rusting.
24. Magnesium alloys are the lightest of the structural metal alloys and are used in aerospace and automotive components.
25. Siamese alloys are formed when two different metals are melted together to create an alloy with a gradient interface.
26. Tungsten alloys have some of the highest melting points of all metals, making them useful for filaments in light bulbs.
27. The properties of amorphous metal alloys, including strength and corrosion resistance, are often superior to crystalline alloys.
28. Superalloys that contain cobalt metal are used for parts that endure high temperatures, like turbine blades in jet engines.
29. Metal matrix composites reinforced with ceramic particles exhibit lower density, higher strength and stiffness.
30. Nickel-based superalloys are currently irreplaceable for high-temperature applications like gas turbine engines.
31. Various metal alloys are used for dental crowns, bridges and fillings because of their biocompatibility, corrosion resistance and mechanical properties.
32. High-entropy alloys combine 5 or more metals in relatively equiatomic ratios, exhibiting superior strength, hardness, ductility and corrosion resistance.
33. Bimetallic corrosion, the acceleration of corrosion when two dissimilar metals contact each other, is a major issue with metal alloys.
34. Invar alloys made from nickel and iron exhibit extremely low coefficients of thermal expansion, making them useful for instruments requiring dimensional stability.
35. Metalloid alloys containing elements like boron, silicon and arsenic possess properties intermediate between metals and nonmetals.
36. Precious metal alloys that contain gold and platinum are biocompatible and often used for dental applications and medical implants.
37. Tool steels containing tungsten, molybdenum and vanadium form extremely hard carbides, making them suitable for cutting tools and dies.
38. Permalloys made from nickel and iron contain very high magnetic permeability, used in applications requiring efficient magnetic paths.
39. Many metal alloys exhibit properties that enable them to serve diverse roles across industries from aerospace to dentistry to electronics.
40. Austenitic stainless steel alloys contain nickel to provide high ductility, formability and corrosion resistance at elevated temperatures.
41. Solder alloys containing tin and lead are used to join metallic parts through melting and then solidifying at lower temperatures.
42. Intermetallic compounds formed by alloying metals are lightweight and possess extreme stiffness, strength, and corrosion resistance.
43. Metalloid alloys exhibit properties unlike pure metals due to mixed metallic and covalent bonding exhibited by metalloids.
44. Nonferrous alloys that contain little or no iron are resistant to corrosion, malleable and ductile, and highly conductive of electricity and heat.
45. Creep-resistant high-temperature superalloys contain elements like chromium, cobalt, tungsten and molybdenum to resist deformation at high temperatures.
46. Semiconductor alloys are formed by combining elements from Groups III-V and II-VI of the periodic table to produce materials with tailored properties.
47. Zinc alloys containing aluminum and magnesium are used as die casting alloys because they possess high fluidity along with strength and ductility.
48. Corrosion-resistant alloys are important for components used in harsh environments like seawater, acids, caustics and high temperatures.
49. Glassy metal alloys have no long-range crystalline order and often exhibit a combination of properties that exceed those of crystalline alloys.
50. Ferrous alloys contain two percent or more of iron and include steel alloys as well as cast irons.
51. Heat-resistant nickel-chromium alloys are used to fabricate furnace parts, combustion chambers and exhaust pipes that endure high temperatures.
52. Superalloys resist high-temperature creep, fatigue and corrosion through high contents of refractory elements like cobalt, tungsten and molybdenum.
53. Shape memory alloys recover their original shapes when subjected to mild heating after being deformed, enabling many smart applications.
54. Semiconductor alloys allow for engineering the materials with the desired values of band gap, mobility, cutoff wavelength and other properties.
55. Hadfield steel, a manganese steel alloy, exhibits very high strain hardening ability and is used for parts requiring high wear and impact resistance.
56. Age hardenable aluminum alloys like 2000, 6000 and 7000 series alloys derive their strength from fine precipitates of intermetallic phases.
57. High-chromium alloys like stainless steel contain at least 10.5% chromium, which forms an oxide film that passivates the surface and resists corrosion.
58. Aluminum-silicon alloys contain up to 25% silicon and possess good wear resistance and heat conductivity, making them useful for automotive applications.
59. Antimony alloys increase the hardness and wear resistance of base metals like lead and tin due to the formation of hard intermetallic phases.
60. Metal matrix composites in which ceramic particles are embedded in an aluminum or titanium alloy matrix have many aerospace and automotive applications.

Common Phases

1. The metals are combined and heated to form alloys with improved properties.
2. Steel and brass are common examples of metal alloys.
3. Scientists study the properties of different alloys to create new materials for different purposes.
4. The strong yet lightweight nature of aluminum alloys makes them popular for aircraft construction.
5. Stainless steel alloys are known for their corrosion resistance.
6. Titanium alloys are useful for medical implants due to their biocompatibility and strength.
7. During the alloying process, impurities are removed from the base metals before the desired elements are added.
8. The properties of alloys can differ substantially from the pure metals used to create them.
9. Alloys tend to be harder and stronger than the constituent metals.
10. The addition of small amounts of other elements can significantly change an alloy's properties.
11. Aluminum alloys allow for aircraft that are lighter and more fuel efficient.
12. Copper alloys are used for electrical wiring due to their high electrical conductivity.
13. Austenite is an alloy of iron, carbon, and other metals with a face-centered cubic crystal structure.
14. Gold alloys are used in jewelry to control hardness and durability.
15. Precious metal alloys are used to create different colors and finishing effects in art and decoration.
16. Constant research into metal alloys seeks to improve properties like corrosion resistance, strength, and hardness.
17. The addition of chromium to iron creates the corrosion resistant stainless steel alloys.
18. High strength steel alloys are used for automotive components and construction materials.
19. Lead alloys are added to solders to lower the melting point and improve flow characteristics.
20. Nickel alloys are useful in high-temperature applications due to their strength and creep resistance at elevated temperatures.
21. Bronze, an alloy of copper and tin, was one of the first alloys used by ancient civilizations.
22. Brass, an alloy of copper and zinc, is another example of an alloy invented in ancient times.
23. The addition of tin allows pewter alloys to melt at low temperatures, making them easy to cast.
24. Duralumin, an aluminum alloy, was used extensively during the early 20th century for its high strength-to-weight ratio.
25. Magnesium alloys are used where high strength and light weight are required.
26. Titanium alloys are often coupled with other metals to enhance properties like toughness and formability.
27. Babbitt metal alloys are used to create low friction bearings.
28. Constantinian gold, an alloy of gold, silver and copper, was used by the Roman Emperor Constantine the Great.
29. Beryllium alloys have high stiffness and are used in aerospace applications.
30. Silicon alloys are added to iron and steel to improve hardenability.
31. The properties of shape memory alloys make them useful for actuators and sensors.
32. Zinc alloys are used for die casting due to their low melting points and fluidity when molten.
33. High entropy alloys are made of five or more elements in near equiatomic ratios.
34. Solders are alloys that melt at low temperatures to form bonds between metals.
35. Eutectic alloys have a eutectic point where they solidify as a homogeneous mixture.
36. Metallic glasses are amorphous metal alloys lacking a crystalline atomic structure.
37. Aluminum-copper alloys exhibit high electrical conductivity and are used in electrical applications.
38. Rhenium alloys have extremely high melting points and are used in furnace components.
39. Platinum alloys are added to pipelines to prevent corrosion.
40. Cobalt alloys are biocompatible and used for implants and prosthetics.
41. Lithium alloys are being researched for use in batteries and fuel cells due to their light weight.
42. Gallium alloys have low melting points and are used for high temperature thermometers.
43. Superalloys are metal alloys that exhibit strength and creep resistance at high temperatures.
44. Amorphous metal alloys are finding applications in biomedical implants due to their ability to store elastic energy.
45. Complex metallic alloys have been developed with desired mechanical and physical properties.
46. Indium alloys are used to fabricate solders and low temperature thermometers.
47. Bimetallic strips use two different alloys joined together.
48. Metal matrix composites may contain alloys in combination with ceramics.
49. Ferrous alloys contain iron as the main component metal.
50. Nonferrous alloys are composed of metals other than iron.
51. Intermetallic compounds are a category of metal alloys with rigid ordered structures.
52. Tungsten alloys have high density and strength and are used for vibration damping.
53. Precious metal alloys are created to enhance the properties of gold, silver and platinum.
54. Shape memory alloys can change shape when heated, allowing for remote actuation.
55. Metal molding alloys have low melting temperatures for easy casting of parts.
56. Aluminum alloys are economical and recyclable, making them widely used in industry.
57. Steel alloys are used wherever high strength and durability are required.
58. Metal alloys are designed to maximize properties like conductivity, hardness and resistance to corrosion.
59. Developing new alloys requires understanding of how composition affects microstructure and properties.
60. Composition, processing and heat treatment all influence the final properties of a metal alloy.