Calculating the weight of any type of metal product, such as beams, profiles, bars, tubes, pipes, sheets, and more, is similar to that of any other material. The key elements are the volume of the metal (cu in, cu mm, cu cm, etc.) and its density (usually in g/cm³ or oz/in³). By multiplying these two values, we obtain the resulting metal weight.
Our Steel Weight Calculator is capable of computing the weight of various metal shapes, including:
The calculation results are provided in kilograms (kg) by default, but our calculator also offers the ability to:
Please note that the specific features and capabilities of the calculator may vary depending on its implementation.
Calculator form and conversion features will be available in the actual calculator interface.
The weight of steel pipe per foot varies depending on several factors, including the pipe's outer diameter (OD), wall thickness, and the type of steel used. A heavier wall thickness or larger diameter pipe will naturally weigh more per foot.
To accurately determine the weight of steel pipe per foot, you would typically use a formula that takes into account these dimensions and the density of the steel. Many manufacturers and suppliers provide tables or calculators that allow you to input these parameters and receive an estimate of the pipe's weight.
It's important to note that the weight per foot is often given in kilograms (kg) or pounds (lbs). Additionally, you might need to convert units based on your specific requirements or preferences. For example, if you need the weight in feet (which is typically not the case for weight measurements), it's likely a misunderstanding; instead, you might be interested in the pipe's length in feet or converting the weight from one unit to another.
If you're working with a specific project and need to calculate the weight of steel pipe per foot, consider consulting with a supplier or using an online calculator that takes into account the specific dimensions and material of your pipe.
To calculate the weight of a steel plate, you need to know the following:
The formula to calculate the weight of the steel plate in kilograms (kg) is:
Weight (kg) = L (m) × W (m) × T (m) × ρ (kg/m³)
Or, if you're working in imperial units (inches and pounds):
Weight (lb) = L (in) × W (in) × T (in) × ρ (lb/in³)
Here's an example:
Suppose you have a steel plate with dimensions of 1 meter length, 0.5 meter width, and 0.01 meter thickness. The density of steel is 7.85 g/cm³ or 7850 kg/m³.
Weight (kg) = 1 m × 0.5 m × 0.01 m × 7850 kg/m³ = 39.25 kg
Our Calculator:Calculate Steel Plate Weight
To calculate the weight of a steel round bar, you need to know its diameter (D) and length (L). The formula for the weight is based on the volume of the bar multiplied by the density of steel, which is approximately 7.85 grams per cubic centimeter (g/cm³).
Our Calculator:Calculate Steel Round Bar Weight
Material | Density (g/cm³) |
---|---|
Iron | 7.86 |
Stainless Steel | 7.95 |
Copper | 8.96 |
Brass | 8.73 |
Cast iron | 7.2 |
Aluminum | 2.7 |
6061 Aluminum (AlMg1SiCu) | 2.7 |
7005 Aluminum (AlZn4,5Mg1,5Mn) | 2.8 |
7020 Aluminum (AlZn4,5Mg1) | 2.8 |
7075 Aluminum (AlZn5,5MgCu) | 2.8 |
Platinum | 21.45 |
Gold | 19.3 |
Silver | 10.5 |
Plumbum | 11.3 |
Bronze | 8.8 |
Nickel | 8.35 |
Nichrome | 8.3 |
Tin | 7.3 |
Chrome | 7.1 |
Zinc | 7.1 |
Titanium | 4.6 |
Skandium | 2.8 |
Duralumin | 2.8 |
Teflon | 2.25 |
Paronite | 1.8 |
Magnesium | 1.74 |
Carbon | 1.7 |
Delrin | 1.42 |
Polyoxymethylene | 1.41 |
Fiber | 1.4 |
Polyacetal - pom | 1.35 |
Textolite | 1.35 |
Kestamid | 1.2 |
Polyamide | 1.2 |
Polietilen | 1.2 |
Poliemit | 1.2 |
Caprolon (PA 6) | 1.15 |
Alpolen | 0.96 |