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Furthermore, the density of aluminum, iron, and gold is more. But, steel is not the densest alloy or metal. That’s why the density of steel varies from 7750 kg/m3 to 8050 kg/m3. But high-density alloys produce greater density steel. Increases in temperature tend to decrease density since the volume will generally increase. In addition, the alloy elements are in a small amount, so they have very little effect on the density of steel. An increase in pressure decreases volume, and always increases density. However, when regarding gases, density is largely affected by temperature and pressure. In the case of solids and liquids, the change in density is typically low. Note that density is also affected by pressure and temperature. It is useful to carefully write out whatever values are being worked with, including units, and perform dimensional analysis to ensure that the final result has units of mass

There are many different ways to express density, and not using or converting into the proper units will result in an incorrect value. However, it is important to pay special attention to the units used for density calculations. To see MatWeb's complete data sheet for this material ( including material property data, metal compositions, material suppliers, etc), please click the button below.The calculation of density is quite straightforward. This page displays only the text of a material data sheet.

Tensile Strength, Ultimate, This is the value for AISI 1020, a mild steel.Hardness, Vickers, Varies widely with composition and heat treatment.The steel weight is generally measured in Kg, Ton, and pounds. It is roughly 1/3 of the steel density making it a lightweight metal in comparison to steel. The density of aluminum ranges between 2700 kg/m 3 2800 kg/m 3 (2.7-2.8 g/cm 3. The density of steel is around 7850 kg/m3 or 7.85 g/cm3 or 490 lbs/ft3 or 13231 lbs/yd3. The formula for the weight of steel pipe is: weight × (diameter/2) - (diameter/2 - thickness) × length × density of steel, where the density of steel can have a value of 7.88 g/cm for mild steel, 7.84 g/cm for carbon steel, or 8.03 g/cm for stainless steel. Typical Steel Density ranges from 7,750 and 8,050 kg/m 3 (484 and 503 lb/cu ft), or 7.75 and 8.05 g/cm 3 (4.48 and 4.65 oz/cu in). Hardness, Knoop, Varies widely with composition and heat treatment. The density of steel is typically around 7,800 kg/m3.Hardness, Brinell, Varies widely with composition and heat treatment.Stainless steels typically have densities around 8 g/cc. Density of Duplex Stainless Steel is 7800 kg/m 3. The Standard English unit is pounds mass per cubic foot (lbm/ft 3). The standard SI unit is kilograms per cubic meter (kg/m 3). Density, Density usually ranges from 7.8 - 7.9 g/cc for carbon and low alloy steels. In words, the density () of a substance is the total mass (m) of that substance divided by the total volume (V) occupied by that substance.In general, properties such as density, thermal conductivity, and electrical resistivity do not vary greatly with composition or heat treatment, whereas properties such as tensile strength, elongation, and hardness are highly dependent on composition and heat treatment. The properties listed below reflect typical properties for Steels. Other alloying elements such as Boron, Chromium, Cobalt, Columbium (Niobium), Copper, Molybdenum, Nickel, Nitrogen, Selenium, Tantalum, Titanium, Tungsten, and Vanadium are added to improve corrosion, high temperature, and mechanical properties of steel. The composition chart above represents typical ranges for basic steel constituents. Steels in general have a lower carbon content than cast irons, and lower amounts of impurities like phosphorus and sulfur.