socketing

简明释义

[ˈsɒkɪtɪŋ][ˈsɑkɪtɪŋ]

n. (木制构造)套接

v. 插入,使装入插座(socket 的现在分词)

英英释义

The act of inserting or placing a socket into a corresponding receptacle or fixture.

将插座插入相应的插口或装置的行为。

In computing, the process of establishing a communication endpoint for sending and receiving data over a network.

在计算机中,建立一个用于在网络上发送和接收数据的通信端点的过程。

单词用法

eye socket

眼窝;眼眶

switch socket

n. 开关插座;开关灯座

同义词

fitting

配件

The plumber used a fitting to connect the pipes.

水管工使用配件连接管道。

insertion

插入

The insertion of the new part was straightforward.

新部件的插入很简单。

connection

连接

The connection between the two devices was established smoothly.

两个设备之间的连接顺利建立。

反义词

unplugging

拔掉

I need to unplug the device before moving it.

我需要在移动设备之前拔掉电源。

disconnecting

断开连接

Make sure to disconnect the cables properly.

确保正确断开电缆。

例句

1.Proper socketing can prevent overheating of electronic components.

正确的socketing可以防止电子组件过热。

2.The technician demonstrated the process of socketing to ensure a secure connection between components.

技术员演示了socketing的过程,以确保组件之间的安全连接。

3.In computer hardware, socketing is crucial for easy upgrades and repairs.

在计算机硬件中,socketing对轻松升级和维修至关重要。

4.They used specialized tools for socketing the delicate parts of the device.

他们使用专业工具对设备的精细部件进行socketing

5.During the assembly, the engineer focused on the socketing of the CPU into the motherboard.

在组装过程中,工程师专注于将CPU进行socketing到主板上。

作文

In the world of construction and engineering, various techniques are employed to ensure the stability and durability of structures. One such technique that has gained prominence is socketing, a method used primarily in the foundation work of buildings and bridges. Socketing refers to the process of embedding a structural element, such as a column or pile, into a solid base material, typically rock or concrete, to provide enhanced support and resistance against lateral forces. This method is particularly useful in regions prone to seismic activity, where stability is paramount.The process of socketing begins with the excavation of a hole in the ground where the foundation will be placed. The depth and diameter of this hole depend on several factors, including the load requirements of the structure and the characteristics of the underlying soil or rock. Once the excavation is complete, the next step is to prepare the base for the structural element to be inserted. This often involves drilling into the bedrock to create a secure socket that will hold the column or pile firmly in place.After the socket has been prepared, the structural element is carefully lowered into the hole. The design of the element usually includes features that allow it to interlock with the surrounding material, enhancing its grip and stability. Concrete is often poured around the embedded section to further secure it, creating a solid bond that increases the overall strength of the foundation. This combination of socketing and concrete reinforcement ensures that the structure can withstand not only vertical loads but also any lateral forces that may arise due to wind or seismic activities.One of the significant advantages of socketing is its ability to provide a high level of stability without requiring extensive excavation or the use of large amounts of materials. This makes it an environmentally friendly option, as it minimizes the disruption to the surrounding landscape. Additionally, because the structural element is anchored deep into the ground, it reduces the risk of settlement or shifting, which can lead to structural failure over time.However, socketing is not without its challenges. The process requires careful planning and execution to ensure that the socket is properly aligned and sized. Any miscalculations can lead to inadequate support, compromising the integrity of the entire structure. Moreover, the method is highly dependent on the geological conditions of the site. In areas with unpredictable soil conditions, additional measures may be necessary to ensure the effectiveness of the socketing technique.In conclusion, socketing is a valuable technique in modern construction, providing enhanced stability and support for various structures. Its ability to anchor elements securely into solid material makes it particularly beneficial in areas with challenging environmental conditions. As engineers continue to innovate and improve upon traditional methods, socketing will likely remain a critical component in the design and construction of safe and durable buildings and infrastructure. Understanding the intricacies of socketing not only helps in appreciating its significance in engineering but also highlights the importance of careful planning and execution in construction projects.

在建筑和工程的世界中,各种技术被用来确保结构的稳定性和耐久性。其中一种日益受到重视的技术是socketing,这是一种主要用于建筑和桥梁基础工程的方法。Socketing指的是将结构元素(如柱或桩)嵌入到坚固的基础材料(通常是岩石或混凝土)中的过程,以提供增强的支撑和抵抗侧向力的能力。这种方法在地震活动频繁的地区尤为有用,因为稳定性至关重要。Socketing的过程始于挖掘一个孔,作为基础放置的地方。这个孔的深度和直径取决于多个因素,包括结构的负载要求和下方土壤或岩石的特性。一旦挖掘完成,下一步是准备结构元素插入的基础。这通常涉及到钻入基岩以创建一个安全的插座,使柱或桩牢固地固定在适当的位置。在准备好插座后,结构元素会被小心地放入孔中。元素的设计通常包括允许其与周围材料相互锁定的特征,从而增强其抓握力和稳定性。通常会在嵌入部分周围浇筑混凝土,以进一步固定它,形成一个坚固的结合,增加基础的整体强度。这种socketing与混凝土加固的结合确保了结构不仅能承受垂直荷载,还能抵御由于风或地震活动引发的任何侧向力。Socketing的一个显著优势是它能够提供高度的稳定性,而不需要进行大规模的挖掘或使用大量的材料。这使得它成为一种环保的选择,因为它最小化了对周围景观的干扰。此外,由于结构元素深深锚定在地下,它减少了沉降或位移的风险,这可能会导致结构随时间的推移而失败。然而,socketing并非没有挑战。该过程需要仔细的规划和执行,以确保插座正确对齐和尺寸。如果计算错误,可能导致支撑不足,从而危及整个结构的完整性。此外,该方法高度依赖于现场的地质条件。在土壤条件不可预测的地区,可能需要额外的措施以确保socketing技术的有效性。总之,socketing是现代建筑中一种有价值的技术,为各种结构提供增强的稳定性和支持。它能够将元素安全锚固到坚固材料中,使其在环境条件具有挑战性的地区特别有益。随着工程师们继续创新和改进传统方法,socketing很可能仍将是安全耐用的建筑和基础设施设计与施工中的关键组成部分。理解socketing的复杂性不仅有助于欣赏其在工程中的重要性,还突显了在建筑项目中仔细规划和执行的重要性。