Steel Beam - U-Channel Dimensions & Drawings | Dimensions.com (2024)

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Steel Beam - U-Channel Dimensions & Drawings | Dimensions.com (1)Steel Beam - U-Channel Dimensions & Drawings | Dimensions.com (2)

Description

Description

A U-channel steel beam is a structural steel shape with a U-shaped cross section. It is commonly used in construction and manufacturing applications. U-channel beams are available in a variety of sizes and grades, and can be made from a variety of materials, including mild steel, hot-rolled steel, and cold-rolled steel. U-channel beams are typically used for load-bearing applications, such as supporting floors and roofs. They can also be used for non-load-bearing applications, such as framing windows and doors.

Dimensions & Sizes

Dimensions & Sizes

U-Channel Steel Beams are available in a range of sizes with widths between 1.35”-3.15” (3.4-8 cm), depths from 3”-12” (7.6-30.5 cm), and thicknesses between .12”-.4” (3-10 mm). U-Channel Steel Beams are available in typical lengths between 4’-20’ (1.22-6.1 m).

Steel Beam - U-Channel Dimensions & Drawings | Dimensions.com (3)

Description

Description

A U-channel steel beam is a structural steel shape with a U-shaped cross section. It is commonly used in construction and manufacturing applications. U-channel beams are available in a variety of sizes and grades, and can be made from a variety of materials, including mild steel, hot-rolled steel, and cold-rolled steel. U-channel beams are typically used for load-bearing applications, such as supporting floors and roofs. They can also be used for non-load-bearing applications, such as framing windows and doors.

Dimensions & Sizes

Dimensions & Sizes

U-Channel Steel Beams are available in a range of sizes with widths between 1.35”-3.15” (3.4-8 cm), depths from 3”-12” (7.6-30.5 cm), and thicknesses between .12”-.4” (3-10 mm). U-Channel Steel Beams are available in typical lengths between 4’-20’ (1.22-6.1 m).

Steel Beam - U-Channel Dimensions & Drawings | Dimensions.com (4)

Steel Beam - U-Channel Dimensions & Drawings | Dimensions.com (5)

Steel Beam - U-Channel Dimensions & Drawings | Dimensions.com (6)

3D Model

3D Model

Common Questions

Common Questions

What can be adjusted to make a steel beam stronger?

The best way to make a steel beam stronger will depend on the specific application. In some cases, it may be sufficient to increase the cross-sectional area of the beam. In other cases, it may be necessary to use a higher-strength steel or add stiffeners to the beam. In still other cases, a composite beam may be the best option.

What gives a steel beam its strength?

Steel beams are strong because of their chemical composition, their manufacturing process, and the shape of the beam. teel is an alloy of iron and carbon, and the amount of carbon in the steel determines its strength. Steel with a higher carbon content is stronger, but it is also more brittle. Steel beams are typically made with a low carbon content, which gives them a good balance of strength and ductility.

What types of buildings use steel beams?

Steel beams are used in a variety of buildings, including residential, commercial, industrial, and agricultural buildings. They are also used in bridges, stadiums, and other large structures. Steel beams are strong and durable, and they can support a lot of weight. They are also relatively inexpensive, which makes them a popular choice for many types of buildings.

What can be adjusted to make a steel beam stronger?

The best way to make a steel beam stronger will depend on the specific application. In some cases, it may be sufficient to increase the cross-sectional area of the beam. In other cases, it may be necessary to use a higher-strength steel or add stiffeners to the beam. In still other cases, a composite beam may be the best option.

What gives a steel beam its strength?

Steel beams are strong because of their chemical composition, their manufacturing process, and the shape of the beam. teel is an alloy of iron and carbon, and the amount of carbon in the steel determines its strength. Steel with a higher carbon content is stronger, but it is also more brittle. Steel beams are typically made with a low carbon content, which gives them a good balance of strength and ductility.

What types of buildings use steel beams?

Steel beams are used in a variety of buildings, including residential, commercial, industrial, and agricultural buildings. They are also used in bridges, stadiums, and other large structures. Steel beams are strong and durable, and they can support a lot of weight. They are also relatively inexpensive, which makes them a popular choice for many types of buildings.

Floors+Floors+

What is the rule-of-three in selecting flooring?

The rule-of-three in selecting flooring refers to the principle of limiting the variety of flooring materials to three different types within a single space or home to create a cohesive and harmonious aesthetic. By using no more than three different flooring materials, you can create visual continuity and avoid a disjointed or cluttered appearance. This rule helps in balancing diversity in textures and patterns, while maintaining a sense of unity and flow throughout the space.

What are the cultural differences in labeling floor levels?

Cultural differences in labeling floor levels vary mainly between countries. In the US, the ground floor is typically called the first floor, and the floor above it is the second floor. However, in many European countries, the ground floor is distinct from the numbered floors, so the floor above the ground floor is the first floor. Additionally, in some cultures, certain numbers are considered unlucky; for example, buildings in China often omit floors with the number 4.

How will floors change in the future?

Floors in the future are likely to incorporate smart and sustainable technologies. They might include embedded sensors to adjust heating or lighting based on occupancy or preference. Energy-harvesting floors could generate electricity from footsteps. Modular and reconfigurable floor systems may allow for adaptable spaces. Sustainable materials, such as recycled plastics or bamboo, will be more prevalent. Also, 3D printing may facilitate custom designs and faster installation, while virtual and augmented reality could be integrated for interactive floor displays.

What is the rule-of-three in selecting flooring?

The rule-of-three in selecting flooring refers to the principle of limiting the variety of flooring materials to three different types within a single space or home to create a cohesive and harmonious aesthetic. By using no more than three different flooring materials, you can create visual continuity and avoid a disjointed or cluttered appearance. This rule helps in balancing diversity in textures and patterns, while maintaining a sense of unity and flow throughout the space.

What are the cultural differences in labeling floor levels?

Cultural differences in labeling floor levels vary mainly between countries. In the US, the ground floor is typically called the first floor, and the floor above it is the second floor. However, in many European countries, the ground floor is distinct from the numbered floors, so the floor above the ground floor is the first floor. Additionally, in some cultures, certain numbers are considered unlucky; for example, buildings in China often omit floors with the number 4.

How will floors change in the future?

Floors in the future are likely to incorporate smart and sustainable technologies. They might include embedded sensors to adjust heating or lighting based on occupancy or preference. Energy-harvesting floors could generate electricity from footsteps. Modular and reconfigurable floor systems may allow for adaptable spaces. Sustainable materials, such as recycled plastics or bamboo, will be more prevalent. Also, 3D printing may facilitate custom designs and faster installation, while virtual and augmented reality could be integrated for interactive floor displays.

Walls+Walls+

What are the tallest walls in the world?

As of September 2021, the Great Wall of China is often considered the longest, but not the tallest. The tallest walls are typically retaining structures, such as the Diga del Vajont in Italy, which stands at 262 meters (860 ft). For inhabited structures, the Ryugyong Hotel in North Korea stands as a wall-like skyscraper at 330 meters (1,080 ft). The Israeli West Bank barrier is one of the tallest security walls, reaching heights of 8 meters (26 ft) in places.

What are the different types of walls used today?

Walls are versatile structures that can be classified into various types based on their function and construction. Load-bearing walls are integral to a building's structure, supporting the weight above them, while partition walls are used to divide spaces without bearing any load. Shear walls are crucial in providing lateral support to buildings, particularly in earthquake-prone areas. Retaining walls are engineered to hold back earth and maintain different levels of soil. Boundary walls define property lines and offer security. Additionally, cavity walls consist of two parallel walls with an airspace in between for insulation, and veneer walls are non-structural, providing a decorative surface.

How will walls change in the future?

In the future, walls are likely to become more adaptive and multifunctional. Smart walls with integrated technology could regulate temperature, lighting, and even display information or images. Modular and movable walls may facilitate adaptable living spaces. The use of sustainable materials like rammed earth or recycled plastics could be prevalent. Transparent solar panels might be integrated into walls for energy generation. Additionally, advances in 3D printing technology could revolutionize how walls are constructed, making it faster and more cost-effective.

What are the tallest walls in the world?

As of September 2021, the Great Wall of China is often considered the longest, but not the tallest. The tallest walls are typically retaining structures, such as the Diga del Vajont in Italy, which stands at 262 meters (860 ft). For inhabited structures, the Ryugyong Hotel in North Korea stands as a wall-like skyscraper at 330 meters (1,080 ft). The Israeli West Bank barrier is one of the tallest security walls, reaching heights of 8 meters (26 ft) in places.

What are the different types of walls used today?

Walls are versatile structures that can be classified into various types based on their function and construction. Load-bearing walls are integral to a building's structure, supporting the weight above them, while partition walls are used to divide spaces without bearing any load. Shear walls are crucial in providing lateral support to buildings, particularly in earthquake-prone areas. Retaining walls are engineered to hold back earth and maintain different levels of soil. Boundary walls define property lines and offer security. Additionally, cavity walls consist of two parallel walls with an airspace in between for insulation, and veneer walls are non-structural, providing a decorative surface.

How will walls change in the future?

In the future, walls are likely to become more adaptive and multifunctional. Smart walls with integrated technology could regulate temperature, lighting, and even display information or images. Modular and movable walls may facilitate adaptable living spaces. The use of sustainable materials like rammed earth or recycled plastics could be prevalent. Transparent solar panels might be integrated into walls for energy generation. Additionally, advances in 3D printing technology could revolutionize how walls are constructed, making it faster and more cost-effective.

Related Collections

Related Collections

Floors

Walls

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Steel Beam - U-Channel Dimensions & Drawings | Dimensions.com (7)Steel Beam - U-Channel Dimensions & Drawings | Dimensions.com (8)

Details

Details

*Under Development*

Height:

Width:

1.35”-3.15” | 3.4-8 cm

Depth:

3”-12” | 7.6-30.5 cm

Length:

4’-20’ | 1.22-6.1 m

:

:

Weight:

Area:

:

Thickness: .12”-.4” | 3-10 mm

Materials:

Structural steel

:

:

Drawings include:

U-Channel Steel Beam plan (various sizes), elevation

Related Collections

Related Collections

Floors

Walls

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Types

Types

Guides

Guides

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Steel beams and joists are structural elements used in construction to support floors, roofs, and other loads. Steel beams are long, slender members that carry tension and compression forces, while joists are shorter, thicker members that carry bending forces.

Steel Connection - Plate, Gusset

12.8”-43.3” | 32.6-110 cm

21.6”-75.6” | 54.8-192 cm

.35”-.87” | 9-22 mm (Plate)

Steel Connection - Plate, Gusset

110.000

192.000

2.200

5300

https://p3d.in/e/WU9Xs

GUIDE3D

Steel Beam - Open-Web Joist

3”-18” | 7.6-45.7 cm

8”-72” | 20.3-183 cm

12’-100’ | 3.66-30.5 m

Steel Beam - Open-Web Joist

45.700

183.000

3050.000

1900

https://p3d.in/e/NPNcK

GUIDE3D

Steel Beam - Wide Flange

4”-16” | 10.2–40.6 cm

4”-16” | 10.2–40.6 cm

8’-20’ | 2.44-6.1 m (Typical); 40’ | 12.2 m (Max)

Steel Beam - Wide Flange

40.600

40.600

610.000

1700

https://p3d.in/e/zyT5K

GUIDE3D

Steel Beam - Wide Flange, 1:2

3”-18” | 7.6-45.7 cm

4”-36” | 10.2-40.6 cm

12’-80’ | 3.66-24.4 m (Span)

Steel Beam - Wide Flange, 1:2

45.700

40.600

2440.000

1700

https://p3d.in/e/PLlKC

GUIDE3D

Steel Connection - Plate, Flange

.35”-.87” | 9-22 mm (Plate)

3.7”-12.25” | 9.4-31.1 cm

3.35”-10.5” | 8.5-26.6 cm

Steel Connection - Plate, Flange

2.200

31.100

36.600

700

https://p3d.in/e/rLoc6

GUIDE3D

Steel Beam - H-Section

4”-16” | 10.2–40.6 cm

4”-16” | 10.2–40.6 cm

8’-20’ | 2.44-6.1 m (Typical); 40’ | 12.2 m (Max)

Steel Beam - H-Section

40.600

40.600

610.000

250

https://p3d.in/e/ucYQ5

GUIDE3D

Steel Beam - L-Section

.6”-9.84” | 1.5-25 cm

.6”-9.84” | 1.5-25 cm

20’-54’ | 6.1-16.5 m

Steel Beam - L-Section

25.000

25.000

1650.000

50

https://p3d.in/e/xCVsY

GUIDE3D

Steel Connection - End Plate

7.5”-21.1” | 19-53.6 cm

4.1”-12.2” | 10.3-31 cm

.35”-.87” | 9-22 mm (Plate)

Steel Connection - End Plate

53.600

31.000

2.200

50

https://p3d.in/e/QorIo

GUIDE3D

Steel Beam - T-Section

1”-12” | 2.5-30.5 cm

1”-12” | 2.5-30.5 cm

10’-20’ | 3.05-6.1 m

Steel Beam - T-Section

30.500

30.500

610.000

35

https://p3d.in/e/VUdeG

GUIDE3D

Steel Beam - C-Purlin

2”, 2.5” | 5.1, 6.4 cm

5.5”-10.5” | 14-26.7 cm

6’-25’ | 1.83-7.62 m

Steel Beam - C-Purlin

6.400

26.700

762.000

30

https://p3d.in/e/NXIH3

GUIDE3D

Steel Connection - End Plate, Extended

9.7”-26.1” | 24.6-66.4 cm

6.1”-13” | 15.4-33 cm

4.1”-12.2” | 10.3-31 cm

Steel Connection - End Plate, Extended

66.400

33.000

31.000

20

https://p3d.in/e/l4PRu

GUIDE3D

Steel Connection - Cleat, Web

2.5”-10” | 6.4-25.4 cm

1.5”-4.9” | 3.9-12.5 cm

1.5”-4.9” | 3.9-12.5 cm

Steel Connection - Cleat, Web

25.400

12.500

12.500

20

https://p3d.in/e/sCdXJ

GUIDE3D

Steel Beam - C-Channel

1.35”-3.15” | 3.4-8 cm

3”-12” | 7.6-30.5 cm

4’-20’ | 1.22-6.1 m

Steel Beam - C-Channel

8.000

30.500

610.000

10

https://p3d.in/e/D3UVN

GUIDE3D

Steel Connection - Cleat, Flange

1.5”-4.9” | 3.9-12.5 cm

1.5”-4.9” | 3.9-12.5 cm

2.5”-10” | 6.4-25.4 cm

Steel Connection - Cleat, Flange

12.500

12.500

25.400

10

https://p3d.in/e/1oRFZ

GUIDE3D

Steel Beam - Bulb Plate

6.3”-16.9” | 16-43 cm

.87”-2.64” | 2.2-6.7 cm

20’-54’ | 6.1-16.5 m

Steel Beam - Bulb Plate

43.000

6.700

1650.000

5

https://p3d.in/e/LIJQZ

GUIDE3D

Steel Beam - U-Channel

1.35”-3.15” | 3.4-8 cm

3”-12” | 7.6-30.5 cm

4’-20’ | 1.22-6.1 m

Steel Beam - U-Channel

8.000

30.500

610.000

5

https://p3d.in/e/7y348

GUIDE3D

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Steel Beam - U-Channel Dimensions & Drawings | Dimensions.com (2024)

FAQs

What is the standard size of U-channel steel? ›

U-Channel Steel Beams are available in a range of sizes with widths between 1.35”-3.15” (3.4-8 cm), depths from 3”-12” (7.6-30.5 cm), and thicknesses between . 12”-. 4” (3-10 mm). U-Channel Steel Beams are available in typical lengths between 4'-20' (1.22-6.1 m).

What are the sizes of U beams? ›

Section Sizes: 150UB, 180UB, 200UB, 250UB, 310UB, 360UB, 410UB, 460UB, 530UB, 610UB.

What are the dimensions of a steel beam? ›

Wide Flange Steel Beams are available in a range of sizes with widths between 4”-16” (10.2–40.6 cm), depths from 4”-16” (10.2–40.6 cm), flange thicknesses between . 35”-1.18” (9-30 mm), and a web thickness of . 25”-. 79” (6.5-20 mm).

How do I know what size steel beam I need? ›

First, we look at the steel beam span length. This is the distance from the centre of one end bearing to the other. After looking at the size, depth and weight, we'll look at how weight is distributed. To calculate your steel beam correctly, we'll need to know what type of load your beam is expected to support.

How to measure U-channel? ›

Put the end of a metal measuring tape all the way into the Top U-Channel and hold it as straight down as possible. IMPORTANT: The hook on the metal tape must be small enough to go all the way into the top U-Channel. Make sure the measuring tape is all the way up into into the Top U-Channel.

What is the difference between channel and U-channel? ›

In summary, C-channels are often used for structural purposes, such as framing and support beams, because their shape provides strength and rigidity. U-channels, with their U-shaped profile, are more suitable for applications that require edge protection, containment, or bordering.

How to design a steel beam manually? ›

How - A summary of how to conduct the check.
  1. Step 1: Determine the yield strength of steel f y f_y fy. ...
  2. Step 2: Classify the cross-section. ...
  3. Step 3: Bending resistance. ...
  4. Step 4: Shear resistance. ...
  5. Step 5: Shear buckling resistance. ...
  6. Step 6: Check of combined bending and shear resistance.
Apr 1, 2024

What does the W stand for in steel beams? ›

The W in its name refers to “wide flanges.” The main difference between W beams is that the inner and outer flange surfaces are parallel. Furthermore, the overall beam must have a depth that is at least equal to the flange width. Usually, its depth is significantly greater than its width.

What is the formula for calculating the size of a beam? ›

To calculate the beam size, first calculate the maximum bending moment using the formula M = wL^2 / 8, where w is the load in pounds and L is the span in feet. Then, calculate the required beam height (h) using the formula h = (6 * M)^(1/3).

What size beam do I need to span 12 feet? ›

When supporting joists that span 12 feet with no overhang beyond the beam, a double ply beam can span in feet a value equal to its depth in inches. For instance, a double 2×12 beam can span 12 feet; a (2) 2×10 can span 10 feet and so on.

What are the stock steel channel sizes? ›

  • 25mm x 25mm x 3mm Mild Steel Channel. ...
  • 30mm x 30mm x 3mm Mild Steel Channel. ...
  • 40mm x 20mm x 2.9kg Mild Steel Channel. ...
  • 40mm x 40mm x 3mm Mild Steel Channel. ...
  • 50mm x 50mm x 3mm Mild Steel Channel. ...
  • 51mm x 25mm x 4.6mm Mild Steel Channel. ...
  • 51mm x 38mm x 5.8kg/m Mild Steel Channel. ...
  • 60mm x 60mm x 3mm Mild Steel Channel.

What are the common sizes of channel iron? ›

C CHANNEL SIZES CHART FOR STEEL CHANNELS
American Standard Steel C Channel Sizes
Desig- nationArea, A, in2Web Thickness tw, in
C15 x 33.99.960.400
C12 x 308.820.510
C12 x 257.350.387
29 more rows

What is standard channel width? ›

The standard width of a channel is 20 MHz. Bonding multiple 20 MHz channels together (to achieve 40/80/160 MHz) can increase throughput. But it's only worth it if it doesn't increase interference.

Is the C channel stronger than the U channel? ›

Both geometries offer very similar strength to weight ratios, with the primary difference being the size offerings available on the open market.

References

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