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The Bessemer process produced the lightweight steel needed to build a suspension bridge.
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How did the bessemer process make suspension briges possible?
The Bessemer process, developed in the mid-19th century, revolutionized steel production by enabling the mass production of strong, inexpensive steel. This improved material properties allowed for lighter and more flexible structures, which were essential for the construction of suspension bridges. With higher tensile strength and reduced weight, engineers could design longer spans and more ambitious bridge designs, ultimately leading to iconic structures like the Golden Gate Bridge and others. Thus, the Bessemer process played a crucial role in advancing civil engineering and infrastructure.
What Bridges did Brunel make?
Isambard Kingdom Brunel built the Hungerford and the Clifton suspension bridge
What is the main difference between an arch bridge and a suspension bridge?
Arch bridges are in the shape of an upside down "U" with mainly steel beans, while supension bridges have one or two Major verticle beams with strong wire connecting to the bridge.
Who invented the process to make steel?
Henry Bessemer.
What element that use to make bridges?
steel
How did the Bessemer process makes suspension bridges possible?
The Bessemer process produced the lightweight steel needed to build a suspension bridge.
How did the bessemer process make suspentioins bridges possible?
The process removed the impurities from the iron creating steel. Therefore steel could be used to make bridges, buildings, and other things.
How did the bessemer process make suspension briges possible?
The Bessemer process, developed in the mid-19th century, revolutionized steel production by enabling the mass production of strong, inexpensive steel. This improved material properties allowed for lighter and more flexible structures, which were essential for the construction of suspension bridges. With higher tensile strength and reduced weight, engineers could design longer spans and more ambitious bridge designs, ultimately leading to iconic structures like the Golden Gate Bridge and others. Thus, the Bessemer process played a crucial role in advancing civil engineering and infrastructure.
What did Henry Bessemer do for the steel industry?
Henry Bessemer developed a way to make steel by melting and burning pig iron. Pig iron is the result of mining and refining iron ore. Before steel, he worked with glass, but his glass making process was not practical.
What differentiates suspension bridges from normal bridges?
Suspension bridges are built to make use of tension, whereas most other types of bridges make use of compression to bear their load. Suspension bridges are usually designed with the deck suspended below a series of towers by cables. Other types of bridges are generally either designed with the deck being supported from below by pillars, or made up of an arch.
What Bridges did Brunel make?
Isambard Kingdom Brunel built the Hungerford and the Clifton suspension bridge
How did Henry Bessemer drive the industrialization process?
Henry Bessemer drove the industrialization process faster because he found a way to make steel stronger and more durable, this lead to people creating stronger and better things for example houses, railroads, and bridges. Hope this helps:D
What inventions helped make the Suspension Bridge possible?
steel
Is it possible to turn a go kart with no suspension into a go kart with suspension?
with torches and a welder, you can make it into a monster truck if u want
What role did the bessemer process have on the steel industry?
The Bessemer process decreased the money and labor needed to make steel.
What is the main difference between an arch bridge and a suspension bridge?
Arch bridges are in the shape of an upside down "U" with mainly steel beans, while supension bridges have one or two Major verticle beams with strong wire connecting to the bridge.
What did Henry bessemer invent?
Answer Henry Bessemer invented The Bessemer Process or Converter. This was a cheaper and more efficient method of making steel.
