forge crack

简明释义

锻造裂纹

英英释义

例句

1.The engineer recommended replacing the part due to the forge crack detected during testing.

工程师建议更换该部件，因为在测试中发现了锻造裂纹。

2.A forge crack can lead to catastrophic failure if not addressed promptly.

如果不及时处理，锻造裂纹可能导致灾难性的故障。

3.We need to assess the forge crack before proceeding with the assembly.

在继续组装之前，我们需要评估一下锻造裂纹。

4.During the inspection, we found a forge crack in the metal component that could weaken its structure.

在检查中，我们发现金属部件上有一个锻造裂纹，这可能会削弱其结构。

5.The manufacturing process was halted after a forge crack was identified in the batch.

在一批次中发现了锻造裂纹后，生产过程被暂停。

作文

In the world of technology and engineering, the term forge crack refers to a specific type of defect that can occur during the forging process of metals. Forging is a manufacturing process that involves shaping metal using localized compressive forces, often delivered by a hammer or a die. While this process is essential for creating strong and durable components, it can sometimes lead to imperfections, one of which is known as a forge crack (锻造裂纹). These cracks can compromise the integrity of the forged material, making it crucial for engineers and manufacturers to understand their causes and implications.The formation of a forge crack can be attributed to several factors, including improper heating of the metal, excessive stress during the forging process, and inadequate material properties. When the metal is not heated uniformly, certain areas may become too brittle, leading to cracks when force is applied. Additionally, if the forging process exerts too much pressure on the metal, it can cause it to fracture, resulting in a forge crack (锻造裂纹). This is particularly problematic in high-stress applications, where the reliability of the component is paramount.To prevent forge cracks, manufacturers must pay close attention to the conditions under which forging takes place. This includes ensuring that the metal is heated evenly and to the appropriate temperature before forging. Furthermore, controlling the rate of deformation during the forging process can help minimize the risk of cracking. Advanced techniques such as finite element analysis (FEA) can also be employed to predict potential failure points in the material, allowing engineers to make necessary adjustments before production begins.The implications of a forge crack (锻造裂纹) extend beyond just the immediate quality of the forged piece. In industries such as aerospace and automotive, where safety is critical, even the smallest defect can lead to catastrophic failures. Therefore, rigorous testing and inspection procedures are essential to identify any forge cracks early in the manufacturing process. Non-destructive testing methods, such as ultrasonic testing or magnetic particle inspection, are commonly used to detect these defects without damaging the part itself.In conclusion, understanding the concept of forge crack (锻造裂纹) is vital for anyone involved in metalworking and manufacturing. By recognizing the factors that contribute to these defects and implementing preventive measures, manufacturers can ensure the production of high-quality components that meet safety and performance standards. As technology continues to advance, ongoing research into the forging process will likely lead to improved techniques and materials that further reduce the occurrence of forge cracks and enhance the overall reliability of forged products.

在技术和工程的世界中，术语forge crack（锻造裂纹）指的是在金属锻造过程中可能发生的一种特定缺陷。锻造是一种制造过程，涉及使用局部压缩力对金属进行成形，通常由锤子或模具施加。虽然这个过程对于制造强大且耐用的组件至关重要，但有时也会导致缺陷，其中之一被称为forge crack（锻造裂纹）。这些裂纹可能会损害锻造材料的完整性，因此工程师和制造商必须理解其原因和影响。forge crack（锻造裂纹）的形成可以归因于多个因素，包括金属加热不当、锻造过程中施加的过大应力以及材料特性不足。当金属未均匀加热时，某些区域可能变得过于脆弱，在施加力量时导致裂纹。此外，如果锻造过程对金属施加过大的压力，可能会导致其断裂，从而产生forge crack（锻造裂纹）。在高应力应用中，这尤其成问题，因为组件的可靠性至关重要。为了防止forge cracks（锻造裂纹），制造商必须密切关注锻造过程中的条件。这包括确保金属在锻造前均匀加热到适当的温度。此外，控制锻造过程中变形的速度可以帮助最小化裂纹的风险。先进的技术，如有限元分析（FEA），也可以用于预测材料中的潜在失效点，使工程师能够在生产开始前进行必要的调整。forge crack（锻造裂纹）的影响超出了锻造件的即时质量。在航空航天和汽车等行业中，安全至关重要，即使是最小的缺陷也可能导致灾难性的故障。因此，严格的测试和检查程序对于在制造过程中尽早识别任何forge cracks（锻造裂纹）至关重要。无损检测方法，如超声波检测或磁粉检测，通常用于在不损坏部件的情况下检测这些缺陷。总之，理解forge crack（锻造裂纹）的概念对于任何参与金属加工和制造的人来说都是至关重要的。通过认识导致这些缺陷的因素并实施预防措施，制造商可以确保生产出符合安全和性能标准的高质量组件。随着技术的不断进步，对锻造过程的持续研究可能会导致改进的技术和材料，从而进一步减少forge cracks（锻造裂纹）的发生，并增强锻造产品的整体可靠性。