design safety limit

简明释义

设计安全限

英英释义

例句

1.Exceeding the design safety limit can lead to catastrophic consequences in chemical processing.

超出设计安全极限可能导致化学加工中的灾难性后果。

2.Regular inspections are necessary to confirm that the equipment operates within its design safety limit.

定期检查是必要的，以确认设备在其设计安全极限内运行。

3.The design safety limit for this bridge was set to accommodate heavy traffic loads.

这座桥的设计安全极限被设定为能承受重型交通负荷。

4.Manufacturers must adhere to the design safety limit to ensure consumer safety.

制造商必须遵守设计安全极限以确保消费者安全。

5.The engineers ensured that the structure was built within the design safety limit to prevent any potential failures.

工程师确保结构的建造在设计安全极限内，以防止任何潜在的故障。

作文

In the field of engineering and construction, the term design safety limit refers to the maximum allowable limits for various parameters that ensure a project can operate safely under expected conditions. Understanding this concept is crucial for engineers as it directly affects the integrity and reliability of structures and systems. The design safety limit encompasses factors such as load capacity, material strength, environmental conditions, and operational stress. By adhering to these limits, engineers can prevent failures that could lead to catastrophic consequences, including loss of life, property damage, and environmental harm.One of the primary reasons for establishing design safety limits is to mitigate risks associated with unforeseen circumstances. For instance, in civil engineering, buildings must be designed to withstand natural disasters like earthquakes or hurricanes. Engineers use historical data and predictive models to determine the forces that a structure may encounter during its lifespan. By applying the design safety limit, they can ensure that the building will not only survive these extreme conditions but also protect the occupants inside.Moreover, the design safety limit plays a significant role in the manufacturing industry. When designing products, engineers must consider how much stress and strain the materials can endure before failing. This involves selecting appropriate materials and creating designs that distribute loads evenly. For example, in the automotive industry, vehicles are subjected to rigorous testing to determine their design safety limits. Crash tests are conducted to evaluate how well a car can protect its occupants in the event of an accident. If a vehicle exceeds its design safety limit, it may compromise passenger safety, leading to serious injuries or fatalities.The importance of design safety limits extends beyond just physical structures and products; it also applies to systems and processes. In chemical engineering, for instance, reaction vessels must have specific design safety limits to prevent explosions or leaks. Engineers must account for factors such as pressure, temperature, and chemical reactivity when determining these limits. Failure to adhere to the design safety limit can result in hazardous situations that endanger workers and the surrounding community.In conclusion, the concept of design safety limits is a fundamental principle in engineering that ensures safety and reliability across various industries. By setting these limits, engineers can design structures and products that not only meet performance requirements but also protect lives and the environment. Understanding and respecting design safety limits is essential for anyone involved in the engineering profession, as it is a critical factor in the successful execution of any project. As technology advances and new challenges arise, the importance of maintaining strict design safety limits will only continue to grow, reinforcing the need for ongoing education and adherence to best practices in engineering design.

在工程和建筑领域，术语设计安全极限指的是确保项目在预期条件下安全运行的各种参数的最大允许限制。理解这个概念对于工程师来说至关重要，因为它直接影响到结构和系统的完整性和可靠性。设计安全极限包括承载能力、材料强度、环境条件和操作应力等因素。通过遵守这些限制，工程师可以防止可能导致灾难性后果的失败，包括生命损失、财产损害和环境危害。建立设计安全极限的主要原因之一是减轻与不可预见情况相关的风险。例如，在土木工程中，建筑物必须设计成能够抵御自然灾害，如地震或飓风。工程师使用历史数据和预测模型来确定结构在其生命周期内可能遭遇的力。通过应用设计安全极限，他们可以确保建筑不仅能在这些极端条件下生存，还能保护内部的居民。此外，设计安全极限在制造业中也起着重要作用。在设计产品时，工程师必须考虑材料在失效前能够承受多少压力和应变。这涉及选择适当的材料并创建均匀分布负载的设计。例如，在汽车行业，车辆经过严格测试以确定其设计安全极限。进行碰撞测试以评估汽车在事故发生时能多好地保护乘客。如果一辆汽车超过其设计安全极限，可能会危及乘客安全，导致严重伤害或死亡。设计安全极限的重要性不仅仅局限于物理结构和产品；它还适用于系统和过程。在化学工程中，例如，反应容器必须具有特定的设计安全极限以防止爆炸或泄漏。工程师在确定这些限制时必须考虑压力、温度和化学反应性等因素。不遵守设计安全极限可能会导致危险情况，危及工人和周围社区的安全。总之，设计安全极限的概念是工程中的一个基本原则，确保各个行业的安全性和可靠性。通过设定这些限制，工程师可以设计出不仅满足性能要求而且保护生命和环境的结构和产品。理解和尊重设计安全极限对于任何参与工程职业的人来说都是必不可少的，因为这是任何项目成功执行的关键因素。随着技术的进步和新挑战的出现，保持严格的设计安全极限的重要性只会继续增长，从而加强了在工程设计中持续教育和遵循最佳实践的必要性。