How Does Technology Help Architecture – In the last blog, we talked about how the housing economy became the top priority in both the public and private sectors. We look at how technology can make the technology more efficiently and help local governments to reduce delays and improve processing time. It helps everyone.
Now let’s focus on the private sector. Developers and builders are under pressure to build faster, lower costs, and get more pressure. Developers are often the face of the project, but they rely on brands and past earnings to attract buyers, but it is also important to happen behind the stage.
How Does Technology Help Architecture
When the marketing campaign is over and the model house disappears, the contractor is to provide a real build. Developers rely on converting plans to home. But most contractors are not in the technology business. It focuses on trading, timeline and data management, not data platforms or analysis tools.
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It provides a tool that operates a project more efficiently, regardless of its size or complexity. Everything is centralized and easy to manage, from cost tracking and crew management to shipping reservations and logging sites. It is not only to save time, but also to maintain competitive and profitable.
Developers create better project visibility and consistency. It is also organized, reliable, and easier to work with a broader contractor pool. When there are more competition among builders with the equipped buildings, we are likely to reduce costs that can ultimately help home buyers.
If you are serious about making your home cheaper, you can’t stop the policy. We must modernize the tools used by people who actually build a house. If you are not ready to live in a soccer ball -shaped house floating in the earthquake, there may be other options.
The Bronze Age has seen some successful civilizations that can build impressive cities with sorted grids and sophisticated pipes. Scientists now think that perceptual activities may have contributed to some of these ancient cultures. For example, a study conducted in MEGIDDO (currently part of Israel) suggests that large earthquakes can be devastated by the city and lead to the same layer as the sandwich found in the excavation. And a series of earthquakes may have destroyed the civilization (now Pakistan).
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We are vulnerable to the sequelae of strong earthquakes today. If you are exposed to the sudden side force created by the earthquake waves, even modern buildings and legs will fail completely and collapse and crush people around them. In any case, more people lived in the urban environment and the structure increased. Luckily for the last decades, architects and engineers have devised a variety of clever technologies to prevent housing, multiple units and high -rise buildings from bending. As a result, the inhabitants of the building can walk safely and begin to pick up the pieces.
In the next few pages, we assembled 10 of the techniques hidden by this Temblor. Some have been around for several years. Others, like the first item of the countdown, are still relatively new ideas that are still being tested.
Old Utah State Capitol is considered to be vulnerable to gentle earthquakes, and has been completed in 2007.
Engineers and earthquake scholars preferred basic isolation as a means of protecting the building during the earthquake. As the name suggests, this concept depends on separating the sub -structure of the building from the upper structure. One of these systems is associated with floating buildings on the basics of lead Rubber Bearing, which includes a solid lead core wrapped in a shift layer of rubber and steel. The steel plate is attached to the building and the foundation and then the earthquake can move the structure without moving the structure.
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Now some Japanese engineers have raised the basic isolation to a new level. Their system actually supports the building on the air cushion. The operation method is as follows. The sensor of the building detects the earthquake activities of the earthquake. The sensor network communicates with the air compressor, which warns and then forced the air between the building and the foundation within 0.5 seconds. The cushion of the air is separated from the force that can be torn by lifting up up to 1.18 inches (3 centimeters) on the ground. When the earthquake sinks, the compressor is turned off and the building goes down to the foundation. The only missing one is the theme of “Greatest American Hero”.
Shock absorption devices are not just for cars. When I climbed the parachute jump of Coney Island, I was happy to see that the shock absorption device was placed on the floor when I jumped back a day.
Another attempt to help buildings face the earthquake, and the sincere technology is signaled in the automotive industry. You are familiar with shock absorbers, a device that controls the unwanted spring exercise of a car. The shock absorption device transforms the kinetic energy of the splashing suspension into a thermal energy that can be dissipated through the hydraulic fluid to slow and reduce the size of the vibration movement. In physics, this is known as damping, so some people are called a damper.
Dampers can be useful when designing earthquake resistance buildings. Engineers are usually placed at each level of the building, one end is attached to the pillar and the other end is attached to the beam. Each damper consists of a piston head that moves inside the cylinder filled with silicone oil. When an earthquake occurs, the piston of each damper is pushed by oil due to the horizontal movement of the building, transforming the mechanical energy of the earthquake into heat.
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Damping can take multiple forms. In particular, another solution of high -rise buildings should be aware of a huge mass near the top of the structure. Steel cables support mass, while viscosity fluid dampers are laid between mass and building. When the building is shaken by an earthquake activity, the pendulum moves in the opposite direction to consume energy.
Engineers are systems such as adjusted mass damper because each pendulum is accurately adjusted with the natural vibration frequency of the structure. If the building vibrates with a resonance frequency with ground exercise, the building can vibrate with a large amount of energy to experience damage. The work of the adjusted mass damper is to prevent resonance and minimize the dynamic response of the structure.
Taipei 101, which shows the number of skyscrapers of 1, 667 feet height (508 meters high), uses tuned mass damper to minimize vibration effects related to earthquakes and strong winds. The core of the system is 730 tons (660 metrics), and the gold ball is hanging on eight steel cables. The world’s largest and heaviest tuning mass damper.
Do you know how the electric fuse flies when it’s overloaded? Engineers are trying to integrate the concept into the prevention of earthquakes of the building.
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In the electric world, fuses provide protection by failing if the current of the circuit exceeds certain levels. This breaks the flow of electricity and prevents overheating and fire. After the accident, you simply replace the fuse and restore the system to normal.
Researchers at Stanford University and the University of Illinois have experimented with similar concepts to build earthquake resistance buildings. The steel frame constituting the structure is called a shaking system that controlled their ideas because they are elastic and can be shaken on the basics. But it is not an ideal solution in itself.
In addition to the steel frame, researchers have introduced a vertical cable that limits the top of each frame to the basis and restricts the shaking movement. In addition, the cable has its own center ring ability, so you can pull the entire structure straight when it stops. The final component is at the basis of replaceable steel fuse or columns disposed between the two frames. The fuse’s metal teeth absorb seismic energy into the rocks. During the earthquake, “fire” can be replaced relatively quickly and costly to restore the building to the original ribbon cutting.
The four -story wooden frame building is tested on August 17, 2013 by researchers at the University of San Diego California, using the world’s largest outdoor shakes table.
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In many modern high -rise buildings, engineers use the core wall structure to increase earthquake performance at low cost. In this design, the reinforced concrete core passes through the center of the structure surrounding the elevator bank. For very high -rise buildings, the core walls can be quite significant. At least 30 feet in each planning direction and 18-30 inches.
The construction of core walls helps the building to face the earthquake, but it is not a perfect technology. Researchers found that a fixed -based building with a core wall could be done.
