Bridge Engineering: An Introduction To Bridge Engineering

1470 Words3 Pages
bulb-icon

Recommended: 6 types of bridges essay

Introduction to bridge engineering

The first bridges were made by nature — as simple as a log fallen across a stream. The first bridges made by humans were probably spans of wooden logs or planks and eventually stones, using a simple support and crossbeam arrangement. Most of these early bridges could not support heavy weights or withstand strong currents. It was these inadequacies which led to the development of better bridges.
The oldest surviving stone bridge in China is the Zhaozhou Bridge, built from 595 to 605 AD during the Sui Dynasty. This bridge is also historically significant as it is the world's oldest open-spandrel stone segmental arch bridge. The first book on bridge engineering was written by Hubert Gautier in 1716. With the …show more content…

Arch bridges: Arch bridges pose a classic architecture and the oldest after the girder bridges. Unlike simple girder bridges, arches are well suited to the use of stone. Since the arch doesn’t require piers in the center so arches are good choices for crossing valleys and rivers. Arches can be one of the most beautiful bridge types. Arches use a curved structure which provides a high resistance to bending forces. Arches can only be used where the ground or foundation is solid and stable because unlike girder and truss bridges, both ends of an arch are fixed in the horizontal direction (i.e. no horizontal movement is allowed in the bearing). Thus when a load is placed on the bridge (e.g. a car passes over it) horizontal forces occur in t Structurally there are four basic arch …show more content…

Cable stayed bridges: A typical cable stayed bridge is a continuous girder with one or more towers erected above piers in the middle of the span. From these towers, cables stretch down diagonally (usually to both sides) and support the girder. Steel cables are extremely strong but very flexible. Cables are very economical as they allow a slender and lighter structure which is still able to span great distances. Though only a few cables are strong enough to support the entire bridge, their flexibility makes them weak to a force we rarely consider: the wind.
For longer span cable-stayed bridges, careful studies must be made to guarantee the stability of the cables and the bridge in the wind. The lighter weight of the bridge, though a disadvantage in a heavy wind, is an advantage during an earthquake. However, should uneven settling of the foundations occur during an earthquake or over time, the cable-stayed bridge can suffer damage so care must be taken in planning the foundations. The modern yet simple appearance of the cable-stayed bridge makes it an attractive and distinct

Show More
Related

  • Exemplification Essay: The Silver Bridge Collapse

    1586 Words  | 4 Pages

    “It was designed with a twenty-two foot roadway and one five-foot sidewalk” (Silver). The silver bridge is a very long bridge. “An eye-bar is a long steel plate having large circular ends with an "eye" or hole through which a pin is used to connect to other eyebars (to make a chain) or to other parts of the bridge.” according to Richard Fields. The whole bridge was built using the eye-bar suspension.

    Read More

  • Balsa Truss Bridge Essay

    1752 Words  | 4 Pages

    Bridge efficiency is important as it helps reduce cost of building while maximizing the strength of the bridge. Many things can influence the bridge’s strength and weight, but the two main things that can cause a bridge to be a failure or success is the design of the bridge and construction of its joints. In order to build a potent balsa truss bridge, it is crucial to know how the layout of members and style of gluing can help increase or decrease strength.

    Read More

  • Ford Model T Research Paper

    1120 Words  | 3 Pages

    The Golden Gate bridge, standing as an icon of roadway innovations, took multiple engineers years to design and complete. They could not just simply build an ordinary bridge. They had to take into consideration the physics behind it, as well as, what kind of effect the environment would have upon the bridge. The bridge sits along one of the most active fault lines in the world, so engineers had to make sure their bridge could withstand a little movement. Today the Golden Gate bridge still stands tried and true, as does many other innovations that 20th century engineers came up with.

    Read More

  • Final Project

    1434 Words  | 3 Pages

    Following the collapse of the I-35 Bridge, other bridges in the country, with similar construction designs, were scrutinized. According to federal statistics, more than 70,000 of the 607,363 or roughly 12 percent of the bridges in the United States are classified as “structurally deficient.”

    Read More

  • Analysis Of The Sword Bridge

    1766 Words  | 4 Pages

    Since humans are mortal, the sensation of pain is integral to the human condition. On one hand, pain alerts the body of a danger that is threatening its overall well-being; however, pain can be used as a means of torture to break the psyche or willpower of someone. As Lancelot races to save his queen from the evil Méléagant, he encounters the Sword Bridge. This Bridge is notorious for its slender construction, making it impossible for one

    Read More

  • Natural Stone Arches Essay

    520 Words  | 2 Pages

    Natural stone arches are geological formations that occur when rock is exposed to substantial amounts of erosion , which over time forces the rock into the shape of an arch. Stone arches are among the most diverse of rock formations, not only because of the large area where they are known to be found, but also their complex ways of forming. Although many factors contribute to making natural stone arches so enthralling, one key role keeps and hones our constant attention: each and every stone arch every formed will fall. Despite the things we do know about stone arches, they are continuously changing and teaching us new things about them as well as the world around us.

    Read More

  • Greek And Roman Influence On Ancient Civilizations

    492 Words  | 1 Pages

    Today the Roman arch is one of the most innovative tools that we have borrowed and perfected from the Romans. “During construction, arches are often supported by a wooden frame. When the frame is removed, both sides of the arch press against the keystone and thereby support the arch.” The Greeks and Romans started using aqueducts, which is where we got the idea of pipelines to distribute water. Aqueducts were constructed by building large bridge like structure that sloped slightly towards the destination it was going to. We borrowed that idea and now use pipes that are pressurized and push the water towards where it is

    Read More

  • Northridge Earthquake Case Study

    2026 Words  | 5 Pages

    These buildings were two and ten stories, respectively, and used steel moment frames as the lateral load resisting system in both directions.

    Read More

  • The Ashtabula Bridge Tragedy

    1199 Words  | 3 Pages

    This all iron design made the bridge a lot heavier than it was designed for, which added more stress to the truss. This fact, by itself, wouldn’t cause any alarm. However, the bridge itself, was very poorly constructed. The members of the bridge were all different sizes, and they were not connected together properly. Due to the poor construction and eleven years of use, members of the bridge had started to bend due to the stress. Despite bridge engineers inspecting the bridge for eleven years, no one noticed these faults with the bridge. However, the ultimate cause of this collapse, was so tiny, only one of the investigators, after the collapse, noticed it. A tiny air hole was left during the construction of the bridge, “and grew with repeated stress over eleven years” (Escher, 2009). This hole would develop in a crack, due to the changing temperatures and the trains crossing it for over eleven years. This would weaken the overall strength of the bridge. The cold winter air and the weight of the train would ultimately prove to be too much, and the whole bridge came crashing

    Read More

  • Why Did The Quebec Bridge Collapse

    475 Words  | 1 Pages

    Before the Quebec Bridge was constructed the only way to reach the north shore at Quebec City from the south shore of the St. Lawrence River was by boat. The bridge was to be a feat of engineering and would greatly increase the efficiency of crossing the river. In 1903 a six million dollar bond was passed for the construction on the bridge to begin. The first mistake made was choosing an inexperienced engineer, Edward Hoare to lead the project. Although he was a distinguished engineer he had never worked on a cantilever bridge that was longer than 90 meters and the Quebec Bridge today spans about 987 meters. Eventually Theodore Cooper replaced Hoare as chief engineer.

    Read More

  • The Collapse of the Tacoma Narrows Bridge

    2332 Words  | 5 Pages

    The Tacoma Narrows Bridge is perhaps the most notorious failure in the world of engineering. It collapsed on November 7, 1940 just months after its opening on July 1, 1940. It was designed by Leon Moisseiff and at its time it was the third largest suspension bridge in the world with a center span of over half a mile long. The bridge was very narrow and sleek giving it a look of grace, but this design made it very flexible in the wind. Nicknamed the "Galloping Gertie," because of its undulating behavior, the Tacoma Narrows Bridge drew the attention of motorists seeking a cheap thrill. Drivers felt that they were driving on a roller coaster, as they would disappear from sight in the trough of the wave. On the last day of the bridge's existence it gave fair warning that its destruction was eminent. Not only did it oscillate up and down, but twisted side to side in a cork screw motion. After hours of this violent motion with wind speeds reaching forty and fifty miles per hour, the bridge collapsed. With such a catastrophic failure, many people ask why such an apparently well thought out plan could have failed so badly?(This rhetorical question clearly sets up a position of inquiry-which iniates all research.) The reason for the collapse of the Tacoma Narrows Bridge is still controversial, but three theories reveal the basis of an engineering explanation. (Jason then directly asserts what he found to be a possible answer to his question.)

    Read More

  • Pollution Essay: Climate Change

    511 Words  | 2 Pages

    The cables are supported by four steel towers, one at each corner of the grid.

    Read More

  • Modernism: A Reflection of Optimism or Regression?

    2041 Words  | 5 Pages

    Since this product was so easily available for them, on account of the volcanic products they use to make it stronger, they were able to build faster and cheaper. (Dighe & Rao, 1959) At the same time, they also needed to design a space large enough for crowds to gather, so they developed the arch and vault. Moving forward in history to the middle ages, engineers needed to design even larger spaces, so they found a way to create a dome structure, as well as the pointed arch. A more recent invention of cast iron led to creating buildings with even larger huge open spaces like factories, warehouse, etc (Dighe & Rao,

    Read More

  • Roman Arch

    742 Words  | 2 Pages

    In the case of the arch, Muscato (2003) advises that “the Roman arch was the foundation of Rome's architectural mastery and massive expanse of building projects across the ancient world. It allowed the Romans to make bigger buildings, longer roads, and better aqueducts. The Roman arch is the ancestor of modern architecture.” Kamm (n.d.) observes that the arch was, like most Roman architecture, built with functionality in mind rather than aesthetic appeal; whilst they were stark and often ugly in their appearance, they were revolutionary, and in the case of the typical Roman aqueduct, they were instrumental in their ability to allow the crossing of large, open spaces, negating the need for long diversions, and ostensibly speeding up commerce and military

    Read More

  • Analysis Of The Bridge By Franz Kafka

    1807 Words  | 4 Pages

    For this bridge its fall was inflicted by an unknown patron. One who’s identity or existence we never see verified. The record of the fall is short in the story described as only being for a moment. Then the bridge was finally introduced to “the sharp rocks which had always gazed up at me so peacefully from the rushing water”. Rocks gazing peacefully? This is almost as absurd as a bridge turning around. An action that the bridge itself cannot seem to believe it is doing. This attempt by the bridge was his final effort before his fall. I cannot even picture how a bridge would turn around and attempt to look on his back. The question that comes to my mind is how can a bridge see what’s on his back? If this book is trying to make us believe that this bridge is a human, or has human like qualities. Then how flexible a person is this bridge? Because I know very few people who can see whats on their back. Especially without turning so much that anything on their back would fall off. So is this bridge so inflexible that it breaks itself by turning around or is it trying to buck off its attacker unintentionally? This answer is never answered due to the story ending shortly thereafter this scene. With the short fall of the bridge onto the sharp rocks it had stared at for the entirety of its life. The events before and during the fall of the bridge was the main issue I had with my thesis that the bridge was

    Read More

More about Bridge Engineering: An Introduction To Bridge Engineering

Open Document