Alloys are combinations of two or more elements, at least one of which is a metal. They are created when two or more metals are combined in order to enhance certain properties of the metals, such as strength, electrical conductivity, or corrosion resistance. Alloys often have unique physical and chemical properties that make them useful in a variety of applications.
Some common properties of alloys include:
Strength: Alloys are often stronger than their component metals, allowing them to be used in applications where higher strength is required.
Corrosion Resistance: Alloys are often more resistant to corrosion than the component metals, allowing them to be used in environments where corrosion may be a problem.
Heat Resistance: Alloys are often able to withstand higher temperatures than their component metals, allowing them to be used in high-temperature applications.
Conductivity: Alloys are often more conductive than their component metals, allowing them to be used in applications where electrical or thermal conductivity is important.
Magnetic Properties: Alloys with magnetic properties can be used in applications such as headphones and loudspeakers.
Ductility: Alloys are often more ductile than their component metals, allowing them to be formed into complex shapes.
Answers & Comments
[tex]\sf{\orange✮ \: ANSWER \: \green✮}[/tex]
Alloys are combinations of two or more elements, at least one of which is a metal. They are created when two or more metals are combined in order to enhance certain properties of the metals, such as strength, electrical conductivity, or corrosion resistance. Alloys often have unique physical and chemical properties that make them useful in a variety of applications.
Some common properties of alloys include:
Strength: Alloys are often stronger than their component metals, allowing them to be used in applications where higher strength is required.
Corrosion Resistance: Alloys are often more resistant to corrosion than the component metals, allowing them to be used in environments where corrosion may be a problem.
Heat Resistance: Alloys are often able to withstand higher temperatures than their component metals, allowing them to be used in high-temperature applications.
Conductivity: Alloys are often more conductive than their component metals, allowing them to be used in applications where electrical or thermal conductivity is important.
Magnetic Properties: Alloys with magnetic properties can be used in applications such as headphones and loudspeakers.
Ductility: Alloys are often more ductile than their component metals, allowing them to be formed into complex shapes.
[tex]——————————————————[/tex]
Regards,
CreativeAB
Verified answer
Answer:
A metal made by combining two or more metallic elements ,especially to give greator strength or resistance to corrosion.
properties :-
alloys are harder than their constituent metals.
alloys are more resistance to corrosion than pure metals.
alloys are more durable than the metals they are made from.
The electrical conductivity of alloys is lower than the pure metals.
Explanation:
please mark me as brainliest❣️