cylinders
简明释义
n. 汽缸;圆筒(cylinder 的复数);[数]圆柱体
英英释义
单词用法
液压缸;液缸;油唧 | |
气缸盖 |
同义词
| 管 | 气体储存在高压管中。 | ||
| 桶 | 石油是用大桶运输的。 | ||
| 罐 | 他为远足装满了水罐。 | ||
| 容器 | 这些容器可以安全地存放各种液体。 |
反义词
| 球体 | 球体在地板上顺利滚动。 | ||
| 盒子 | 盒子整齐地堆放在角落里。 |
例句
1.I'm going to roll down this incline two cylinders.
两个圆柱从这个斜坡滚下。
2.But if I took short, rejuvenating breaks, I'd allow my body and mind to recover and regain ability to fire on all cylinders.
但是如果我进行了短期,恢复性休息,就可以使我的身体和精神恢复到点燃所有的汽缸。
3.Instead of a single-fuselage cylinder, the D series melds two partial cylinders into a distinctive “double-bubble” shape.
D系列飞机采用了一种独特的“双体”外形机身,即类似于将两个柱体融合在一起的形式,改变了传统的单体机身。
4.The cylinders spin in opposite directions, creating suction that immediately prevents eddies from forming.
气缸向相反的方向旋转,所产生的吸力立刻阻止了涡流的形成。
5.Why have eight cylinders in an engine?
为什么在一个发动机中有八个气缸?
6.It shows three evolutions for this project, using cylinders to represent iterations.
它显示了该项目的三个演进,用圆柱来表示迭代。
7.Superchargers and turbochargers are like steroids for IC engines, forcing pressurized air into cylinders to boost power and efficiency.
对于内燃发动机来说,增压器和涡轮增压器就像是类固醇,通过将空气强行压入汽缸提升发动机功率。
8.For example, a table could be made up of cylinders for legs and a box for the top.
例如,桌子是由圆柱体的腿和长方体的顶组成的。
9.But these cylinders cling together at a molecular level.
但是这些圆柱体在分子水平上是紧密结合的。
10.We need to replace the old 气缸 in the hydraulic system.
我们需要更换液压系统中的旧气缸。
11.The bicycle uses air-filled 气缸 to provide a smoother ride.
这辆自行车使用充气的气缸来提供更平稳的骑行体验。
12.The car's engine has six 气缸 for better performance.
这辆车的发动机有六个气缸,以提高性能。
13.In physics, we often study the behavior of 气缸 under different pressures.
在物理学中,我们经常研究不同压力下的气缸行为。
14.The engineer designed a new model with two 气缸 for increased efficiency.
工程师设计了一个新的模型,配备两个气缸以提高效率。
作文
In the world of engineering and mechanics, the term cylinders (气缸) is often used to describe a fundamental component in various machines and vehicles. A cylinder (气缸) is typically a cylindrical shape that serves as a chamber where gas or liquid can be contained and manipulated. In internal combustion engines, for instance, cylinders (气缸) play a crucial role in converting fuel into mechanical energy. Each cylinder (气缸) contains a piston that moves up and down, creating the power needed to drive the car forward. The design and efficiency of cylinders (气缸) can significantly impact the performance of an engine. Engineers must consider factors such as the size, shape, and material of the cylinder (气缸) to optimize the engine's output. Modern engines may have multiple cylinders (气缸), ranging from two in smaller vehicles to eight or more in high-performance cars. The arrangement of these cylinders (气缸) can also vary, with configurations like inline, V-shaped, or flat designs, each offering different advantages in terms of power delivery and space efficiency.Beyond automotive applications, cylinders (气缸) are also found in various industrial machines. For example, hydraulic systems utilize cylinders (气缸) to create force through fluid pressure, allowing heavy machinery to lift and move large objects. Pneumatic cylinders (气缸) operate on compressed air, providing motion and control in applications like assembly lines and robotics. Understanding the mechanics of cylinders (气缸) is essential for engineers and technicians working in these fields, as it enables them to design and maintain efficient systems.In addition to their mechanical functions, cylinders (气缸) can also be found in everyday objects. For instance, a simple spray can operates using a pressurized cylinder (气缸) that releases its contents when the nozzle is pressed. Similarly, many household appliances, such as vacuum cleaners, utilize cylinders (气缸) to create suction and improve performance. This versatility highlights the importance of cylinders (气缸) in both specialized and common applications.As technology advances, the design and application of cylinders (气缸) continue to evolve. Innovations in materials, such as lightweight composites and advanced alloys, allow for stronger and more efficient cylinders (气缸). Additionally, computer-aided design (CAD) tools enable engineers to simulate and analyze the performance of cylinders (气缸) before they are manufactured, reducing development time and costs.In conclusion, the concept of cylinders (气缸) is integral to various fields, from automotive engineering to industrial machinery. Their ability to contain and manipulate fluids and gases makes them invaluable components in many systems. As we continue to innovate and improve upon existing technologies, the role of cylinders (气缸) will undoubtedly remain significant in shaping the future of engineering and design.
在工程和机械的世界中,术语cylinders(气缸)通常用于描述各种机器和车辆中的基本组件。cylinder(气缸)通常是一个圆柱形,作为一个可以容纳和操作气体或液体的腔室。在内燃机中,例如,cylinders(气缸)在将燃料转化为机械能方面发挥着至关重要的作用。每个cylinder(气缸)中都有一个活塞,上下移动,产生驱动汽车前进所需的动力。cylinders(气缸)的设计和效率会显著影响发动机的性能。工程师必须考虑cylinder(气缸)的大小、形状和材料等因素,以优化发动机的输出。现代发动机可能有多个cylinders(气缸),从小型车辆的两个到高性能汽车的八个或更多。这些cylinders(气缸)的排列也可以有所不同,具有直列、V型或平面设计等配置,每种配置在动力传递和空间效率方面都有不同的优点。除了汽车应用外,cylinders(气缸)还出现在各种工业机器中。例如,液压系统利用cylinders(气缸)通过流体压力产生力量,使重型机械能够提升和移动大型物体。气动cylinders(气缸)在压缩空气的作用下工作,为装配线和机器人等应用提供运动和控制。理解cylinders(气缸)的机械原理对在这些领域工作的工程师和技术人员至关重要,因为这使他们能够设计和维护高效的系统。除了它们的机械功能,cylinders(气缸)还可以在日常物品中找到。例如,一个简单的喷雾罐使用一个加压的cylinder(气缸)来释放其内容物,当按下喷嘴时。同样,许多家用电器,如吸尘器,利用cylinders(气缸)来产生吸力并提高性能。这种多功能性突显了cylinders(气缸)在专业和常见应用中的重要性。随着技术的发展,cylinders(气缸)的设计和应用也在不断演变。轻质复合材料和先进合金等新材料的创新,使得cylinders(气缸)更强大、更高效。此外,计算机辅助设计(CAD)工具使工程师能够在制造之前模拟和分析cylinders(气缸)的性能,从而减少开发时间和成本。总之,cylinders(气缸)这一概念在汽车工程到工业机械等多个领域都是不可或缺的。它们能够容纳和操作流体及气体,使其成为许多系统中不可或缺的组件。随着我们不断创新和改进现有技术,cylinders(气缸)的作用无疑将在塑造工程和设计的未来中保持重要地位。
