they are more useful because they have more copper inside .
Copper alloys are more useful than pure copper because they have enhanced properties such as increased strength, hardness, and corrosion resistance. By combining copper with other metals, alloys can be tailored to suit specific applications, making them more versatile and suitable for a wider range of uses than pure copper.
Copper alloys are more useful than pure copper because they often have improved mechanical properties such as strength, hardness, and corrosion resistance. By combining copper with other elements in specific proportions, alloy designers can tailor the material to meet specific application requirements. This makes copper alloys more versatile and widely applicable in various industries.
During the Copper Age, two important alloys that were in use were bronze (copper and tin alloy) and brass (copper and zinc alloy). Bronze was especially significant as it was stronger and more durable than pure copper, leading to advancements in tools, weapons, and other artifacts. Brass was also utilized for its unique properties such as corrosion resistance and aesthetic appeal.
Copper and zinc are common elements used in sterling silver alloys to improve strength and durability. Typically, sterling silver consists of 92.5% silver and 7.5% of these other metals to create a more workable and durable material for jewelry making.
i need to answer this --> Properties of alloy that are different to and more useful than the main metal... i think this means what do they do?
Copper alloys are more useful than pure copper because they have enhanced properties such as increased strength, hardness, and corrosion resistance. By combining copper with other metals, alloys can be tailored to suit specific applications, making them more versatile and suitable for a wider range of uses than pure copper.
Copper alloys are more useful than pure copper because they often have improved mechanical properties such as strength, hardness, and corrosion resistance. By combining copper with other elements in specific proportions, alloy designers can tailor the material to meet specific application requirements. This makes copper alloys more versatile and widely applicable in various industries.
Aluminium alloys are alloys of aluminium, often with copper, zinc, manganese, silicon, or magnesum. A alloy is more than one metal combined to make a greater property
Many useful alloys have other alternatives that are either better, more common or even just cheaper than the other
It depends on the alloy and temper of each material. Beryllium copper alloys are harder than the softest aluminum alloys, and high-strength aluminum alloys are harder than pure copper (which is quite soft). And almost every metal is harder than lead, except a few such as gold.
Copper is more malleable and can be formed easier. However, it is much softer than iron and doesn't carry weight well. Copper is more corrosion resistant than iron is and oxidizes very slowly.
During the Copper Age, two important alloys that were in use were bronze (copper and tin alloy) and brass (copper and zinc alloy). Bronze was especially significant as it was stronger and more durable than pure copper, leading to advancements in tools, weapons, and other artifacts. Brass was also utilized for its unique properties such as corrosion resistance and aesthetic appeal.
Copper and zinc are common elements used in sterling silver alloys to improve strength and durability. Typically, sterling silver consists of 92.5% silver and 7.5% of these other metals to create a more workable and durable material for jewelry making.
i need to answer this --> Properties of alloy that are different to and more useful than the main metal... i think this means what do they do?
There are a few different reasons. 1. Some alloys are stronger than natural metals. 2. Weight, if you need a light weight material, alloys have more to offer, eg. aluminum. 3. Cost 4. Flexibility These are just a few of the many answers.
Alloys are sometimes more useful than pure metals because alloys are stronger - or tougher (toughness is resistance to fracture). Pure metals tend to be softer than alloys and therefore tend to get dented, scratched, or broken/fractured more easily. Alloys are often lower cost than pure metals but not necessarily so. As an example, stainless steel is more expensive than pure iron.
An alloy is a type of metal (specifically, it's a solid solution of dissimilar metals). All alloys are metal, but not all metals are alloys ... pure metals (pure gold or pure copper, for example) are not alloys.