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相关概念视频

Design Example: Analyzing Capacity Contours for Flood Risk Assessment01:17

Design Example: Analyzing Capacity Contours for Flood Risk Assessment

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Flood risk assessment involves careful planning and analysis to ensure the safety of communities near water retention structures. Capacity contours are a vital tool in this process, as they illustrate the potential spread of water at specific levels in a given area. In the context of building a bund across a small valley, these contours play a critical role in evaluating the safety of nearby residential areas.In this example, the bund is intended to store stormwater in the valley. The engineers...
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Design Example: Sustainability in Concrete Building01:26

Design Example: Sustainability in Concrete Building

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As the construction industry moves towards more eco-friendly practices, concrete's adaptability and its ability to incorporate sustainable features make it a key material in the drive towards greener building solutions.
There are multiple approaches to achieve sustainability in a commercial concrete building. For instance, construct a concrete parking area under the building, utilizing pervious concrete paver blocks in open areas to facilitate rainwater collection through an underground...
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Design Consideration01:22

Design Consideration

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Designing a structure involves a series of considerations, primarily the material's ultimate strength, calculated through tests that measure changes under increased force until the material reaches its breaking point or limit. The ultimate load, where the material breaks, is divided by its original cross-sectional area, resulting in the ultimate normal stress or strength. The ultimate shearing stress is another significant factor taken into account.
The factor of safety is another key...
531
Design Example: Designing a Residential Plumbing System01:25

Design Example: Designing a Residential Plumbing System

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The design of residential plumbing systems requires carefully evaluating water demand, flow rates, and pressure dynamics to ensure both efficiency and reliability. The nature of water flow within pipes is defined by its Reynolds number, which classifies flow as either laminar (smooth) or turbulent.
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Unsymmetric Loading of Thin-Walled Members01:23

Unsymmetric Loading of Thin-Walled Members

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Thin-walled members with non-symmetrical cross-sections are vital to engineering structures, offering material efficiency and structural integrity. However, unsymmetrical loading on these members leads to complex stress distributions, resulting in simultaneous bending and twisting can cause deformation or structural failure. The interaction between bending and twisting requires detailed analysis to ensure structural resilience.
The concept of the shear center is crucial in countering the...
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Design Example: Distributing Reinforcements in Concrete Sections01:22

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The topic explores the practical aspects of adjusting steel reinforcements within a concrete beam section to meet specific design requirements. When designing a reinforced concrete beam, it is essential to distribute the steel reinforcements properly to ensure structural integrity and efficiency. The example provided details a scenario where a beam requires a total steel cross-section of 4 square inches. The engineer identifies that the available steel bars have a nominal diameter of 1.693...
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Structural Design and Manufacturing of a Cruiser Class Solar Vehicle
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重新思考基础设施设计,从组件故障到系统弹性.

Sam Dulin1,2, Stergios-Aristoteles Mitoulis3,4, Alexandre Bredikhin5

  • 1Environmental Laboratory, US Army Engineer Research and Development Center, 696 Virginia Rd, Concord, MA, USA.

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概括
此摘要是机器生成的。

基础设施设计必须从基于风险的方法转向基于弹性的方法. 基于系统的框架,考虑到连续的故障,对于重大破坏后的经济稳定至关重要.

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科学领域:

  • 土木工程 土木工程是指土木工程.
  • 基础设施弹性 基础设施弹性
  • 区域经济学 区域经济学

背景情况:

  • 传统的桥梁设计优先考虑基于负载的风险标准.
  • 现有的方法往往忽视了对相互连接的基础设施和经济的级联效应.
  • 弗朗西斯·斯科特基桥倒塌凸显了这些局限性.

研究的目的:

  • 倡导基于系统的基础设施设计方法.
  • 量化级联故障超出直接基础设施损坏的经济影响.
  • 用一个案例研究来评估区域的弹性.

主要方法:

  • 利用弗朗西斯·斯科特基桥塌事件作为一个案例研究.
  • 采用了区域经济模型TranSight.
  • 地方交通中断的经济影响与桥梁和港口故障的经济影响的比较.

主要成果:

  • 综合桥梁和港口中断显著增加了国内生产总值,就业,收入和劳动力的损失.
  • 一些经济指标可能直到2040年才会恢复.
  • 巴尔的摩地区对加剧冲击的抵御能力有限.

结论:

  • 基础设施设计必须超越以组件为中心的风险评估.
  • 相互连接的系统需要一个可量化的弹性框架.
  • 基于系统的设计,平衡降低风险和恢复能力至关重要.