tungsten carbide
No. Tungsten has the best strength/weight ration. Some steel alloys at the strongest.
The strongest thin wire available on the market is typically made of tungsten or tungsten alloys.
Gold is neither strong nor durable. It's heavy, soft, rare and non-corroding.Titanium and it's alloys, are the strongest.
Osmium is the densest metal, and it is very strong and also very heavy. But is mostly used in alloys to increase strength, no pure metal is harder than the strongest of alloys.
Neodymium is the lanthanide element known for forming alloys with unusual conductivity and magnetic properties. This element is commonly used in the production of neodymium magnets, which are the strongest type of permanent magnets commercially available.
1 Alloys of magnesium2 Alloys of aluminum3 Alloys of potassium4 Alloys of iron5 Alloys of cobalt6 Alloys of nickel7 Alloys of copper8 Alloys of gallium9 Alloys of silver10 Alloys of tin11 Rare earth alloys12 Alloys of gold13 Alloys of mercury14 Alloys of lead15 Alloys of bismuth16 Alloys of zirconiumBUT I AM SURE WHAT THEY ARE MADE OF I HOPE THIS HELPS :)
The plural of alloy is alloys.
Alloys are mixtures
At 500 degrees Fahrenheit (about 260 degrees Celsius), titanium alloys are among the strongest metals, known for their high strength-to-weight ratio and excellent corrosion resistance. Additionally, some high-performance steel alloys, like certain types of stainless steel, maintain good strength and toughness at elevated temperatures. However, the specific strength can vary based on the exact alloy and its treatment, so it's important to consider the specific application and environment when assessing strength at high temperatures.
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Many alloys of cobalt, nickel, and iron (such as steel), can be magnetic, depending on their composition and temperature. Some rare-earth elements such as samarium and neodymium are used in magnetic alloys, and NdFeB magnets (neodymium, iron, and boron alloy) are the strongest of permanent magnets.
Classification of non-ferrous alloys is typically based on their primary alloying elements. Common categories include aluminum alloys, copper alloys, magnesium alloys, and titanium alloys, each with specific properties and applications. Non-ferrous alloys are distinguished from ferrous alloys by the absence of iron as the primary constituent in the alloy composition.