assembly wound

简明释义

再捻络筒;

英英释义

An assembly wound refers to an injury or damage that occurs during the process of assembling components or parts together, often seen in manufacturing or construction contexts.

组装伤指在将组件或部件组合在一起的过程中发生的伤害或损坏,通常出现在制造或建筑环境中。

例句

1.Proper training can help workers identify potential assembly wound issues early.

适当的培训可以帮助工人及早识别潜在的组件损伤问题。

2.To avoid assembly wound, ensure all parts are fitted correctly before operation.

为了避免组件损伤,确保所有部件在操作前都正确安装。

3.The quality control team reported a significant number of assembly wound cases in the last batch.

质量控制团队报告说,在最后一批中有大量的组件损伤案例。

4.The technician noticed an assembly wound during the inspection of the machinery.

技术人员在机器检查时注意到了一个组件损伤

5.After the accident, the engineer found that an assembly wound had caused the failure.

事故发生后,工程师发现一个组件损伤导致了故障。

作文

In the world of engineering and manufacturing, precision and attention to detail are paramount. One term that often arises in discussions about mechanical assemblies is assembly wound, which refers to a specific type of defect that can occur during the assembly process. Understanding this concept is crucial for engineers and manufacturers alike, as it directly impacts the quality and reliability of the final product. assembly wound(装配伤)通常指的是在组件组装过程中,由于不当的操作或材料缺陷而导致的损伤或缺陷。这种伤害可能会影响到产品的性能,甚至在某些情况下,可能会导致安全隐患。The assembly wound phenomenon can manifest in various ways, such as misalignment of parts, improper fastening, or even physical damage to components. Each of these issues can lead to significant problems down the line, including increased wear and tear, operational inefficiencies, and ultimately, product failure. For instance, if two gears in a machine are not properly aligned due to an assembly wound, the friction generated could lead to premature wear, resulting in costly repairs and downtime.To mitigate the risks associated with assembly wound, manufacturers must implement rigorous quality control measures throughout the assembly process. This includes thorough inspections at each stage of production, utilizing advanced technologies like computer-aided design (CAD) and automated assembly lines to ensure precision. Additionally, training workers to recognize potential issues that could lead to assembly wound is essential. By fostering a culture of quality awareness, companies can significantly reduce the likelihood of defects occurring.Another important aspect to consider is the role of materials in preventing assembly wound. Selecting the right materials for each component is critical, as certain materials may be more prone to damage during assembly. For example, softer metals might deform under pressure, leading to an assembly wound that compromises the integrity of the entire assembly. Therefore, engineers must carefully evaluate material properties and compatibility when designing products to minimize the risk of defects.Moreover, communication between different teams involved in the assembly process is vital. Engineers, designers, and assembly line workers must collaborate closely to ensure that everyone understands the specifications and tolerances required to avoid assembly wound. Regular meetings and updates can help keep all parties informed and aligned, reducing the chances of miscommunication that could lead to assembly defects.In conclusion, the term assembly wound encapsulates a critical issue within the fields of engineering and manufacturing. By recognizing the potential risks associated with assembly defects and implementing effective strategies to prevent them, companies can enhance product quality, improve operational efficiency, and ultimately deliver safer, more reliable products to consumers. As industries continue to evolve and technology advances, the importance of understanding and addressing assembly wound will only grow, making it an essential consideration for anyone involved in the manufacturing process.

在工程和制造的世界中,精确和关注细节至关重要。在讨论机械组装时,一个常见的术语是assembly wound,它指的是在组装过程中可能发生的一种特定类型的缺陷。了解这一概念对工程师和制造商来说至关重要,因为它直接影响最终产品的质量和可靠性。assembly wound(装配伤)通常指的是在组件组装过程中,由于不当的操作或材料缺陷而导致的损伤或缺陷。这种伤害可能会影响到产品的性能,甚至在某些情况下,可能会导致安全隐患。assembly wound现象可以以多种方式表现出来,例如零件的不对齐、固定不当,甚至组件的物理损坏。每一个问题都可能导致下游出现重大问题,包括磨损增加、操作效率低下,最终导致产品故障。例如,如果机器中的两个齿轮由于assembly wound没有正确对齐,产生的摩擦可能导致过早磨损,从而导致昂贵的维修和停机。为了降低与assembly wound相关的风险,制造商必须在整个组装过程中实施严格的质量控制措施。这包括在生产的每个阶段进行彻底检查,利用计算机辅助设计(CAD)和自动化装配线等先进技术确保精确。此外,培训工人识别可能导致assembly wound的问题至关重要。通过培养质量意识的文化,公司可以显著减少缺陷发生的可能性。另一个需要考虑的重要方面是材料在防止assembly wound中的作用。选择合适的材料对于每个组件至关重要,因为某些材料在组装过程中可能更容易受到损坏。例如,较软的金属在压力下可能变形,导致assembly wound,从而损害整个装配的完整性。因此,工程师在设计产品时必须仔细评估材料属性和兼容性,以最小化缺陷的风险。此外,参与组装过程的不同团队之间的沟通至关重要。工程师、设计师和装配线工人必须紧密合作,以确保每个人都理解避免assembly wound所需的规格和公差。定期会议和更新可以帮助所有相关方保持信息通畅,减少可能导致组装缺陷的误沟通的机会。总之,术语assembly wound概括了工程和制造领域中的一个关键问题。通过认识到与组装缺陷相关的潜在风险并实施有效的预防策略,公司可以提高产品质量、改善操作效率,并最终向消费者提供更安全、更可靠的产品。随着行业的不断发展和技术的进步,理解和解决assembly wound的重要性只会增加,使其成为任何参与制造过程的人的重要考虑因素。