__Aluminium C Channel Weight Calculator:__

__Aluminium C Channel Weight Calculator:__

Enter the values of width, W_{(cm)}, flange thickness, T_{1(cm)}, height, H_{(cm)}, web thickness, T_{2(cm)} and length, L_{(cm)} to determine the value of weight of an acrylic C channel, W_{(g)}.

__Aluminium C Channel Weight Formula:__

__Aluminium C Channel Weight Formula:__

The weight of an Aluminium C Channel is determined by the physics of its material composition, geometry, and density.

The C Channel is characterized by its C-shaped cross-section, which includes a flat base (web) and two flanges that extend perpendicular to the base.

The weight of the channel is a direct result of the amount of aluminium material used, which depends on the dimensions of these components. Specifically, the width and thickness of the flanges, the height and thickness of the web, and the overall length of the channel are crucial factors.

Since the channel has a hollow section, the weight is calculated by multiplying the combined areas of the cross-sectional components (flanges and web) by the length of the channel and its density.

The design of the C Channel ensures that it can bear significant loads while minimizing material usage, making it both strong and lightweight.

The weight of an aluminium C channel, W_{(g)} in grams is the sum of twice the product of the width, W_{(cm)} in centimetres and flange thickness, T_{1(cm)} in centimetres, plus the product of the height, H_{(cm)} in centimetres and web thickness, T_{2(cm)} in centimetres, all multiplied by the length, L_{(cm)} in centimetres and the material density, d_{(g/cm3)} in grams per cubic centimetres.

Weight of an aluminium C channel, W_{(g)} = (2 * W_{(cm)} * T_{1(cm)} + H_{(cm)} * T_{2(cm)}) * L_{(cm)} * d_{(g/cm3)}

W_{(g)} = weight in grams, g.

W_{(cm)} = width in centimetres, cm.

T_{1(cm)} = flange thickness in centimetres, cm.

T_{2(cm)} = web thickness in centimetres, cm.

H_{(cm)} = height in centimetres, cm.

L_{(cm)} = length in centimetres, cm.

d_{(g/cm3)} = density in grams per cubic centimetres, g/cm^{3}.

__Aluminium C Channel Weight Calculation:__

__Aluminium C Channel Weight Calculation:__

- An Aluminium C Channel has a width of 6 cm, flange thickness of 0.5 cm, height of 8 cm, web thickness of 1 cm, length of 300 cm, and the density of aluminium is 2.7 g/cm
^{3}. Calculate the weight of the channel.

Given: W_{(cm)} = 6cm, T_{1(cm)} = 0.5cm, T_{2(cm)} = 1cm, L_{(cm)} = 300cm, H_{(cm)} = 8cm,

d_{(g/cm3)} = 2.7g/cm^{3}.

Weight of an aluminium C channel, W_{(g)} = (2 * W_{(cm)} * T_{1(cm)} + H_{(cm)} * T_{2(cm)}) * L_{(cm)} * d_{(g/cm3)}

W_{(g)} = (2 * 6 * 0.5 + 8 * 1) * 300 * 2.7

W_{(g)} = (6 + 8) * 300 * 2.7

W_{(g)} = 14 * 300 * 2.7

W_{(g)} = 11340g.

- An Aluminium C Channel has a width of 4 cm, flange thickness (T1) of 0.8 cm, height of 6 cm, web thickness (T2) of 1.2 cm, and a material density, d = 2.7 g/cm
^{3}. If the channel weighs W = 7,776 g, calculate the length of the channel.

Given: W_{(cm)} = 4cm, T_{1(cm)} = 0.8cm, T_{2(cm)} = 1.2cm, W_{(g)} = 7776g, H_{(cm)} = 6cm,

d_{(g/cm3)} = 2.7g/cm^{3}.

Weight of an acrylic C channel, W_{(g)} = (2 * W_{(cm)} * T_{1(cm)} + H_{(cm)} * T_{2(cm)}) * L_{(cm)} * d_{(g/cm3)}

L_{(cm)} = W_{(g)} / (2 * W_{(cm)} * T_{1(cm)} + H_{(cm)} * T_{2(cm)}) * d_{(g/cm3)}

L_{(cm)} = 7776 / (2 * 4 * 0.8 + 6 * 1.2) * 2.7

L_{(cm)} = 7776 / 36.72

L_{(cm)} = 211.73cm.