machine foundation

简明释义

机械基础

英英释义

例句

1.Before installation, ensure the machine foundation is properly leveled.

在安装之前，确保机器基础已正确找平。

2.A well-designed machine foundation can reduce vibrations during operation.

一个设计良好的机器基础可以减少操作过程中的振动。

3.Improper construction of the machine foundation may lead to equipment failure.

不当的机器基础建设可能导致设备故障。

4.The engineers conducted tests to assess the durability of the machine foundation.

工程师进行了测试，以评估机器基础的耐久性。

5.The stability of the equipment relies heavily on the quality of the machine foundation.

设备的稳定性在很大程度上依赖于机器基础的质量。

作文

In the field of engineering, the term machine foundation refers to a specific type of foundation that supports machines and equipment. These foundations are crucial for the stability and performance of machinery, especially in industries such as manufacturing, construction, and energy production. A well-designed machine foundation can significantly reduce vibrations and noise generated by operating machines, ensuring both the longevity of the equipment and the safety of personnel working nearby.The primary purpose of a machine foundation is to provide a stable base that can withstand dynamic forces produced during machine operation. Machines like turbines, compressors, and generators often produce significant vibrations due to their moving parts. Without a proper foundation, these vibrations can lead to structural failure, misalignment, and even catastrophic accidents. Therefore, engineers must carefully consider various factors when designing a machine foundation, including soil characteristics, load distribution, and environmental conditions.One of the key aspects of designing a machine foundation is understanding the type of soil on which it will be built. Different soils have varying load-bearing capacities, which can affect how much weight the foundation can support. Engineers often conduct soil tests to determine the soil's properties and make informed decisions regarding the design and materials needed for the foundation. For instance, a machine foundation built on sandy soil may require different reinforcement techniques compared to one built on clayey soil.Another important consideration is the dynamic loads that the machine will exert on the foundation. Dynamic loads are forces that change over time, such as those caused by rotating machinery. Engineers must calculate the expected vibrations and design the machine foundation to absorb and dissipate these forces effectively. This may involve using specific materials or designs, such as reinforced concrete or vibration isolation pads, to minimize the impact of vibrations on the surrounding structure.In addition to stability and vibration control, a machine foundation must also account for other environmental factors. For example, if the foundation is located in an area prone to seismic activity, additional measures must be taken to ensure that it can withstand earthquakes. Similarly, if the foundation is exposed to moisture or chemicals, corrosion-resistant materials may be necessary to prolong its lifespan.Overall, the design and construction of a machine foundation are critical processes that require careful planning and execution. Engineers must collaborate with architects, contractors, and machine operators to create a foundation that meets all operational requirements while ensuring safety and durability. The importance of a well-constructed machine foundation cannot be overstated; it serves as the backbone of industrial operations, allowing machines to function efficiently and safely.In conclusion, the term machine foundation encompasses a vital aspect of engineering that supports the effective operation of machinery. By understanding the principles behind the design of these foundations, we can appreciate the role they play in modern industry. Investing in quality machine foundations not only enhances machine performance but also contributes to the overall safety and efficiency of industrial processes.

在工程领域，术语机器基础指的是一种特定类型的基础，用于支撑机器和设备。这些基础对于机器的稳定性和性能至关重要，尤其是在制造、建筑和能源生产等行业中。一个设计良好的机器基础可以显著减少操作机器时产生的振动和噪音，从而确保设备的耐久性以及在附近工作的人员的安全。机器基础的主要目的是提供一个稳定的基础，可以承受机器运行过程中产生的动态力。涡轮机、压缩机和发电机等机器由于其运动部件，往往会产生显著的振动。如果没有适当的基础，这些振动可能导致结构故障、错位甚至灾难性的事故。因此，工程师在设计机器基础时必须仔细考虑各种因素，包括土壤特性、载荷分布和环境条件。设计机器基础的一个关键方面是了解其建造所用土壤的类型。不同的土壤具有不同的承载能力，这会影响基础能够支持的重量。工程师通常会进行土壤测试，以确定土壤的特性，并就基础所需的设计和材料做出明智的决策。例如，建在沙土上的机器基础可能需要与建在粘土上不同的加固技术。另一个重要的考虑因素是机器对基础施加的动态载荷。动态载荷是随时间变化的力量，例如由旋转机械引起的力量。工程师必须计算预期的振动，并设计机器基础以有效吸收和消散这些力量。这可能涉及使用特定材料或设计，例如钢筋混凝土或振动隔离垫，以最小化振动对周围结构的影响。除了稳定性和振动控制外，机器基础还必须考虑其他环境因素。例如，如果基础位于易发生地震的区域，则必须采取额外措施以确保其能够抵御地震。同样，如果基础暴露于潮湿或化学物质中，可能需要耐腐蚀材料来延长其使用寿命。总体而言，机器基础的设计和施工是需要仔细规划和执行的关键过程。工程师必须与建筑师、承包商和机器操作员合作，创建满足所有操作要求的基础，同时确保安全和耐用性。一个构造良好的机器基础的重要性不容小觑；它作为工业运营的支柱，使机器能够高效、安全地运行。总之，术语机器基础涵盖了支撑机器有效运行的工程学的重要方面。通过理解这些基础设计背后的原理，我们可以欣赏它们在现代工业中的作用。投资于优质的机器基础不仅提升了机器的性能，还促进了工业过程的整体安全性和效率。