machine foundation

简明释义

机器底座

英英释义

例句

1.Poorly constructed machine foundations can lead to vibrations that affect machine performance.

构造不良的机器基础会导致振动，从而影响机器性能。

2.The design of the machine foundation must consider soil conditions and load requirements.

设计机器基础时必须考虑土壤条件和负载要求。

3.Before installation, it is crucial to ensure that the machine foundation is level and properly reinforced.

在安装之前，确保机器基础水平且经过适当加固是至关重要的。

4.Regular inspections of the machine foundation can prevent costly repairs in the future.

定期检查机器基础可以防止未来发生昂贵的维修费用。

5.The stability of the equipment depends largely on the quality of the machine foundation.

设备的稳定性在很大程度上取决于机器基础的质量。

作文

The term machine foundation refers to the structural base that supports machinery and equipment, ensuring stability and minimizing vibrations. In engineering and construction, the design of a machine foundation is crucial for the efficient operation of machines, particularly those that are heavy or operate at high speeds. A well-designed machine foundation can significantly enhance the performance and longevity of the machinery it supports.When engineers design a machine foundation, they must consider various factors, including the weight of the machine, the type of soil, and the operational conditions. The foundation must be strong enough to bear the load of the machine while also being flexible enough to absorb vibrations. This is particularly important for machines like turbines, generators, and heavy industrial equipment, which can generate significant forces during operation.One of the key aspects of a successful machine foundation design is the analysis of dynamic loads. These loads arise from the machine's operation and can cause vibrations that may lead to premature wear or failure. Engineers often use advanced modeling techniques to predict how these loads will affect the foundation and the surrounding structures. By accurately assessing these dynamic forces, they can create a foundation that minimizes vibration transmission and ensures the machine operates smoothly.In addition to stability and vibration control, the materials used in a machine foundation are also vital. Common materials include concrete, steel, and sometimes reinforced composites. The choice of material depends on various factors, such as cost, availability, and the specific requirements of the machinery being supported. For example, concrete is often favored for its strength and durability, while steel may be used for its flexibility and ability to withstand dynamic forces.Furthermore, the location of the machine foundation is critical. It should be placed on stable ground that can support the weight of the machinery without excessive settling or shifting. Engineers often conduct soil tests to determine the bearing capacity of the ground and to identify any potential issues that may arise from soil movement or erosion.The construction process of a machine foundation also requires careful planning and execution. It involves excavation, pouring concrete, and allowing sufficient curing time before the machinery is installed. Proper alignment and leveling are essential to ensure that the machinery operates correctly and does not experience undue stress.In conclusion, the machine foundation plays a pivotal role in the performance and reliability of industrial machinery. Its design and construction require a thorough understanding of engineering principles and an awareness of the operational environment. By investing time and resources into creating a robust machine foundation, companies can enhance the efficiency of their operations, reduce maintenance costs, and extend the lifespan of their equipment. Ultimately, the success of any industrial operation hinges on the integrity of its machine foundation.

短语machine foundation指的是支撑机器和设备的结构基础，确保稳定性并最小化振动。在工程和建筑中，machine foundation的设计对于机器的高效运行至关重要，特别是那些重量大或高速运转的机器。一个设计良好的machine foundation可以显著提高其所支持的机械设备的性能和使用寿命。当工程师设计machine foundation时，他们必须考虑各种因素，包括机器的重量、土壤类型和操作条件。基础必须足够强大以承受机器的负载，同时又要有足够的灵活性来吸收振动。这一点对于涡轮机、发电机和重型工业设备等机器尤为重要，因为它们在运行过程中会产生显著的力量。成功的machine foundation设计的关键方面之一是动态载荷的分析。这些载荷源于机器的运行，可能会导致振动，进而导致过早磨损或故障。工程师通常使用先进的建模技术来预测这些载荷将如何影响基础和周围结构。通过准确评估这些动态力，他们可以创建一个最小化振动传播的基础，确保机器平稳运行。除了稳定性和振动控制外，machine foundation中使用的材料也至关重要。常见的材料包括混凝土、钢材，有时还包括增强复合材料。材料的选择取决于多种因素，例如成本、可用性和所支持机器的特定要求。例如，混凝土因其强度和耐久性而受到青睐，而钢材则因其灵活性和承受动态力量的能力而被使用。此外，machine foundation的位置也至关重要。它应该放置在能够支撑机器重量且不会出现过度沉降或位移的稳定地面上。工程师通常会进行土壤测试，以确定地面的承载能力，并识别可能因土壤运动或侵蚀而出现的潜在问题。machine foundation的施工过程同样需要仔细规划和执行。它涉及挖掘、浇筑混凝土，并在安装机器之前留出足够的固化时间。适当的对齐和水平调整对于确保机器正确运行而不承受过度压力至关重要。总之，machine foundation在工业机械的性能和可靠性中扮演着关键角色。它的设计和施工需要对工程原理有深入的理解，并对操作环境有充分的认识。通过在创建坚固的machine foundation上投入时间和资源，公司可以提高运营效率，降低维护成本，并延长设备的使用寿命。最终，任何工业操作的成功都取决于其machine foundation的完整性。