distributing groove

简明释义

分配槽

英英释义

例句

1.The technician adjusted the width of the distributing groove to optimize the flow rate.

技术员调整了分配槽的宽度，以优化流速。

2.The distributing groove in the mold allows for better distribution of the material during the casting process.

模具中的分配槽允许在铸造过程中更好地分配材料。

3.In the assembly line, the distributing groove helps in guiding the parts to their designated positions.

在装配线上，分配槽帮助引导零件到达指定位置。

4.The engineer designed a new component with a distributing groove to ensure even flow of the liquid.

工程师设计了一个新组件，带有一个分配槽以确保液体均匀流动。

5.When designing the pipe system, the distributing groove was critical for managing pressure levels.

在设计管道系统时，分配槽对管理压力水平至关重要。

作文

In the world of engineering and manufacturing, precision is key to creating efficient systems and products. One often overlooked yet crucial component in various machinery is the distributing groove. The distributing groove (分配槽) serves as a channel that directs fluids or materials to different parts of a machine, ensuring that everything operates smoothly and effectively. Understanding the role and design of the distributing groove is essential for engineers and designers who aim to optimize the functionality of their products.The distributing groove can be found in numerous applications, from hydraulic systems to conveyor belts. In hydraulic systems, for instance, the distributing groove allows pressurized fluid to flow to various actuators, enabling them to perform their intended functions. Without a well-designed distributing groove, the system could face inefficiencies, leading to potential failures or reduced performance.Designing an effective distributing groove involves careful consideration of several factors, including the viscosity of the fluid, the pressure levels, and the desired flow rates. Engineers must calculate the dimensions of the distributing groove accurately to ensure that it accommodates the required volume of fluid while minimizing turbulence. This calculation is vital because excessive turbulence can lead to energy loss and wear on the components involved.Moreover, the material used to create the distributing groove also plays a significant role in its performance. Different materials have varying levels of durability and resistance to corrosion, which is particularly important in environments where fluids may contain harsh chemicals. Selecting the right material ensures that the distributing groove can withstand operational stresses and extend the lifespan of the machinery.In addition to its functional aspects, the distributing groove can also impact the overall design aesthetics of a product. For instance, in consumer electronics, where appearance matters as much as functionality, engineers often strive to incorporate distributing grooves that not only perform well but also enhance the visual appeal of the device. This balance between form and function is a hallmark of great design.Furthermore, the distributing groove concept extends beyond mechanical applications. In nature, we can observe similar principles at work. For example, the way rivers distribute water across a landscape can be likened to how a distributing groove functions in machinery. Just as rivers carve out paths to direct water flow, a distributing groove carves out channels to guide fluids effectively within a system.In conclusion, the distributing groove (分配槽) is a small yet significant element in the realm of engineering and design. Its ability to manage the flow of fluids and materials is critical to the efficiency and reliability of many systems. As technology continues to evolve, the importance of optimizing components like the distributing groove will only grow, highlighting the need for ongoing research and innovation in this area. By understanding and mastering the design principles surrounding the distributing groove, engineers can contribute to the development of more efficient, durable, and aesthetically pleasing products that meet the demands of modern society.