dead weight capacity

简明释义

载重吨位

英英释义

例句

1.The dead weight capacity 载重能力 of this truck is crucial for transporting construction materials efficiently.

这辆卡车的dead weight capacity 载重能力对于高效运输建筑材料至关重要。

2.The cargo ship's dead weight capacity 载重能力 is 20,000 tons, allowing it to carry heavy goods across the ocean.

这艘货船的dead weight capacity 载重能力为20,000吨，可以在海洋中运输重物。

3.Before loading, we need to calculate the dead weight capacity 载重能力 to ensure we don’t exceed safety limits.

在装载之前，我们需要计算dead weight capacity 载重能力，以确保不超过安全限制。

4.Understanding the dead weight capacity 载重能力 helps in optimizing load distribution on the vessel.

了解dead weight capacity 载重能力有助于优化船只上的负载分布。

5.A ship's dead weight capacity 载重能力 includes the weight of cargo, fuel, and crew.

一艘船的dead weight capacity 载重能力包括货物、燃料和船员的重量。

作文

Understanding the concept of dead weight capacity is crucial in various fields, especially in engineering and transportation. The term refers to the maximum weight that a vessel or structure can carry without compromising its safety and stability. In simpler terms, it indicates how much additional weight can be added to a ship, truck, or any other form of transport before it becomes overloaded. This concept is essential for ensuring that vehicles and structures operate within their safe limits, thus preventing accidents and failures.For instance, consider a cargo ship that has been designed with a specific dead weight capacity. This capacity includes not only the weight of the cargo but also the weight of the crew, fuel, and any other supplies on board. If the total weight exceeds this capacity, the ship may begin to sink lower into the water, which can lead to instability and an increased risk of capsizing. Therefore, understanding and adhering to the dead weight capacity is vital for maritime safety.In the context of road transportation, trucks also have a defined dead weight capacity. Exceeding this limit can result in several issues, including increased wear and tear on the vehicle, reduced fuel efficiency, and potential legal penalties. Each truck is manufactured with a specified dead weight capacity, which must be adhered to in order to ensure the safety of the driver, passengers, and other road users.Moreover, in construction and civil engineering, the dead weight capacity of materials and structures needs to be evaluated carefully. For example, when designing a bridge, engineers must calculate the dead weight capacity to ensure that it can support the weight of vehicles and pedestrians without collapsing. This involves complex calculations and considerations of various factors, including material strength, environmental conditions, and usage patterns.In addition to safety concerns, understanding dead weight capacity can also have economic implications. For businesses involved in shipping and logistics, knowing the dead weight capacity of their transport vessels allows for optimized loading and cost-effective operations. By maximizing the use of available capacity, companies can reduce shipping costs and improve their bottom line.Furthermore, the concept of dead weight capacity extends beyond physical transportation. In economics, it can refer to the inefficiencies in a system where resources are not being utilized to their full potential. For example, if a business has excess capacity in its workforce but does not effectively utilize it, this could be seen as a form of dead weight capacity that hinders growth and profitability.In conclusion, the term dead weight capacity plays a significant role across various domains, from maritime and road transportation to construction and economics. Understanding this concept helps ensure safety, optimize operations, and promote efficient resource management. Whether you are a ship captain, a truck driver, an engineer, or a business owner, recognizing and respecting the limits imposed by dead weight capacity is essential for success and safety in your endeavors.

理解死重能力的概念在多个领域中至关重要，特别是在工程和运输领域。这个术语指的是一个船只或结构在不危害其安全和稳定性的情况下能够承载的最大重量。简单来说，它表示在船舶、卡车或任何其他运输工具上可以添加多少额外重量，而不会造成超载。这个概念对于确保车辆和结构在安全范围内运行至关重要，从而防止事故和故障。例如，考虑一艘货船，它被设计成具有特定的死重能力。这个能力不仅包括货物的重量，还包括船员、燃料和其他供应品的重量。如果总重量超过了这个能力，船可能会开始下沉到水中，这会导致不稳定性并增加翻覆的风险。因此，理解并遵守死重能力对于海事安全至关重要。在公路运输的背景下，卡车也有一个定义的死重能力。超过这个限制可能会导致多个问题，包括车辆的磨损加剧、燃油效率降低以及潜在的法律处罚。每辆卡车都有一个规定的死重能力，必须遵循这一点，以确保驾驶员、乘客和其他道路使用者的安全。此外，在建筑和土木工程中，材料和结构的死重能力需要仔细评估。例如，在设计桥梁时，工程师必须计算死重能力，以确保它能够支持车辆和行人的重量而不崩溃。这涉及复杂的计算和对各种因素的考虑，包括材料强度、环境条件和使用模式。除了安全问题，理解死重能力还可能具有经济意义。对于参与航运和物流的企业而言，了解其运输工具的死重能力可以优化装载和成本效益运营。通过最大化可用能力的利用，公司可以降低运输成本，提高盈利能力。此外，死重能力的概念超出了物理运输。在经济学中，它可以指系统中的低效现象，即资源未得到充分利用。例如，如果一家企业在其劳动力中有过剩能力但未能有效利用，这可以被视为一种阻碍增长和盈利的死重能力。总之，术语死重能力在多个领域中发挥着重要作用，从海事和公路运输到建筑和经济学。理解这一概念有助于确保安全、优化操作并促进有效的资源管理。无论您是船长、卡车司机、工程师还是企业主，认识到并尊重死重能力所施加的限制对于您事业的成功和安全至关重要。