cylinder diameter

简明释义

汽缸直径

英英释义

例句

1.When designing the engine, the cylinder diameter is a crucial parameter.

在设计发动机时，气缸直径是一个关键参数。

2.The specifications require a cylinder diameter of at least 10 cm.

规格要求气缸直径至少为10厘米。

3.To optimize performance, we need to adjust the cylinder diameter of the hydraulic system.

为了优化性能，我们需要调整液压系统的气缸直径。

4.The cylinder diameter affects the volume of fluid that can be stored.

在气缸中，气缸直径影响可以储存的液体体积。

5.The engineer calculated the cylinder diameter to ensure proper fitting in the machine.

工程师计算了气缸直径以确保机器的合适配合。

作文

In the world of engineering and design, understanding dimensions is crucial for creating functional and efficient structures. One such dimension that plays a vital role in various applications is the cylinder diameter. The term cylinder diameter refers to the measurement across the circular end of a cylinder, which is a common geometric shape found in many mechanical components, pipes, and storage tanks. This measurement is essential because it directly affects the volume and surface area of the cylinder, which in turn influences how the cylinder can be used in practical applications.For example, in the manufacturing of hydraulic cylinders, the cylinder diameter is critical for determining the amount of force that the cylinder can exert. A larger diameter allows for greater fluid capacity, which can translate into increased power output. Therefore, engineers must carefully calculate the appropriate cylinder diameter to ensure that the hydraulic system operates efficiently without compromising safety or performance.Additionally, in the field of automotive engineering, the cylinder diameter is a key factor in engine design. The diameter of the cylinders within an engine affects its displacement, which is a measure of the engine's size and power. A larger cylinder diameter typically means more air and fuel can be drawn into the cylinder, resulting in more power generated during combustion. However, this also requires careful consideration of other factors such as engine weight, fuel efficiency, and emissions.The importance of the cylinder diameter extends beyond just mechanical applications. In civil engineering, for instance, the cylinder diameter is significant when designing columns and pillars that support structures. The diameter must be proportionate to the height and load-bearing requirements of the column to ensure stability and safety. Engineers use various calculations and material properties to determine the ideal cylinder diameter for their designs, taking into account factors such as the type of materials used and the expected loads.Moreover, the cylinder diameter can also play a role in fluid dynamics. When designing systems that involve the flow of liquids or gases, the diameter of the pipes or tubes can significantly affect flow rates and pressure drops. A smaller cylinder diameter may result in higher velocity but can also lead to increased turbulence and friction losses, while a larger diameter may allow for smoother flow but could require more energy to maintain the same flow rate.In conclusion, the cylinder diameter is a fundamental measurement that impacts a wide range of engineering disciplines. Whether it's in the design of hydraulic systems, automotive engines, structural supports, or fluid transport systems, understanding the implications of the cylinder diameter is essential for achieving optimal performance and safety. As technology continues to advance, engineers must remain adept at calculating and applying the appropriate cylinder diameter to meet the demands of modern applications and ensure the integrity of their designs.

在工程和设计的世界中，理解尺寸对于创建功能性和高效的结构至关重要。其中一个在各种应用中起着重要作用的尺寸是圆柱直径。术语圆柱直径指的是圆柱体圆形端面的测量，这是一种常见的几何形状，广泛应用于许多机械组件、管道和储存罐中。这个测量值是必不可少的，因为它直接影响圆柱的体积和表面积，这反过来又影响圆柱在实际应用中的使用方式。例如，在液压缸的制造中，圆柱直径对确定圆柱可以施加的力量至关重要。较大的直径允许更大的流体容量，这可能转化为更高的功率输出。因此，工程师必须仔细计算适当的圆柱直径，以确保液压系统高效运行而不影响安全性或性能。此外，在汽车工程领域，圆柱直径是发动机设计中的一个关键因素。发动机内气缸的直径会影响其排量，这是衡量发动机大小和功率的指标。较大的圆柱直径通常意味着可以吸入更多的空气和燃料，从而在燃烧过程中产生更多的动力。然而，这也需要仔细考虑其他因素，例如发动机重量、燃油效率和排放。圆柱直径的重要性不仅限于机械应用。在土木工程中，例如，圆柱直径在设计支撑结构的柱子和支柱时也很重要。直径必须与柱子的高度和承载要求成比例，以确保稳定性和安全性。工程师使用各种计算和材料特性来确定其设计的理想圆柱直径，考虑到所用材料的类型和预期的负荷。此外，圆柱直径在流体动力学中也可能发挥作用。当设计涉及液体或气体流动的系统时，管道或管子的直径会显著影响流速和压力降。较小的圆柱直径可能导致更高的流速，但也可能导致湍流和摩擦损失增加，而较大的直径则可能允许更平稳的流动，但可能需要更多的能量来维持相同的流速。总之，圆柱直径是一个基本的测量，影响着广泛的工程学科。无论是在液压系统、汽车发动机、结构支撑还是流体输送系统的设计中，理解圆柱直径的影响对于实现最佳性能和安全性至关重要。随着技术的不断进步，工程师必须保持熟练，计算和应用适当的圆柱直径以满足现代应用的需求，并确保其设计的完整性。