plate loss

简明释义

板耗

英英释义

例句

1.To prevent plate loss, regular maintenance of the machinery is essential.

为了防止板材损失，定期维护机器是必不可少的。

2.The research focused on the causes of plate loss in composite materials.

研究集中在复合材料中板材损失的原因上。

3.Engineers are developing new coatings to minimize plate loss during operation.

工程师们正在开发新的涂层，以最小化操作过程中板材损失。

4.During the inspection, we discovered that plate loss was more severe than expected.

在检查过程中，我们发现板材损失比预期的更严重。

5.The technician noted a significant plate loss in the test results, indicating possible wear and tear.

技术人员注意到测试结果中有显著的板材损失，这表明可能存在磨损。

作文

In the field of material science and engineering, understanding the phenomenon of plate loss is crucial for ensuring the longevity and reliability of various structures. Plate loss refers to the reduction in thickness or area of a plate material due to factors such as corrosion, wear, or mechanical damage. This issue is particularly significant in industries like construction, aerospace, and marine engineering, where the integrity of materials directly affects safety and performance.Corrosion is one of the leading causes of plate loss. When metal plates are exposed to moisture, chemicals, or harsh environments, they can undergo oxidation, leading to the gradual deterioration of the material. For instance, steel plates used in bridges can suffer from plate loss due to rust formation, which not only weakens the structure but also poses serious safety risks. Engineers must regularly inspect and maintain these structures to mitigate the effects of corrosion and ensure that any plate loss is addressed promptly.Wear is another factor contributing to plate loss. In applications where plates are subject to friction or impact, such as conveyor systems or heavy machinery, the surface of the plates can wear down over time. This type of plate loss can lead to decreased efficiency and increased operational costs, as worn plates may require more energy to function properly. To combat this, engineers often select materials with high wear resistance or implement protective coatings to extend the lifespan of the plates and minimize plate loss.Mechanical damage is yet another cause of plate loss. Accidents, improper handling, or excessive loads can lead to dents, cracks, or breaks in plate materials. These forms of damage not only reduce the effective area of the plates but can also compromise the structural integrity of the entire system. Therefore, it is essential for operators to follow proper handling procedures and adhere to load limits to prevent plate loss from mechanical sources.Addressing plate loss involves a combination of preventive measures and corrective actions. Regular inspections, maintenance schedules, and the use of advanced materials can help mitigate the risks associated with plate loss. Furthermore, innovative technologies such as non-destructive testing (NDT) allow engineers to assess the condition of plates without causing further damage, enabling timely interventions.In conclusion, plate loss is a critical concern in various engineering fields that can have significant implications for safety and performance. By understanding the causes and consequences of plate loss, engineers can implement effective strategies to minimize its impact. Through diligent monitoring and maintenance, the integrity of plate materials can be preserved, ensuring the durability and reliability of structures that rely on them. Ultimately, addressing plate loss not only enhances the lifespan of materials but also contributes to the overall safety and efficiency of engineering projects.

在材料科学和工程领域，理解板材损失现象对于确保各种结构的耐久性和可靠性至关重要。板材损失是指由于腐蚀、磨损或机械损伤等因素导致的板材厚度或面积的减少。这个问题在建筑、航空航天和海洋工程等行业尤为重要，因为材料的完整性直接影响安全性和性能。腐蚀是造成板材损失的主要原因之一。当金属板暴露于潮湿、化学物质或恶劣环境中时，它们可能会发生氧化，导致材料逐渐恶化。例如，用于桥梁的钢板可能因生锈而遭受板材损失，这不仅削弱了结构，还带来了严重的安全风险。工程师必须定期检查和维护这些结构，以减轻腐蚀的影响，并确保及时处理任何板材损失。磨损是导致板材损失的另一个因素。在传送系统或重型机械等应用中，板材受到摩擦或冲击时，表面可能会随着时间的推移而磨损。这种类型的板材损失可能导致效率降低和运营成本增加，因为磨损的板可能需要更多的能量才能正常运行。为此，工程师通常选择具有高耐磨性的材料或实施保护涂层，以延长板材的使用寿命，最小化板材损失。机械损伤是造成板材损失的另一原因。事故、不当操作或超载可能导致板材出现凹痕、裂缝或断裂。这些损伤不仅减少了板材的有效面积，还可能危及整个系统的结构完整性。因此，操作人员必须遵循正确的操作程序并遵守负荷限制，以防止机械来源造成的板材损失。解决板材损失问题涉及预防措施和纠正措施的结合。定期检查、维护计划和使用先进材料可以帮助减轻与板材损失相关的风险。此外，非破坏性检测（NDT）等创新技术使工程师能够在不造成进一步损害的情况下评估板材的状态，从而实现及时干预。总之，板材损失在各个工程领域都是一个关键问题，可能对安全性和性能产生重大影响。通过理解板材损失的原因和后果，工程师可以实施有效的策略来最小化其影响。通过勤奋监测和维护，可以保持板材的完整性，确保依赖于它们的结构的耐用性和可靠性。最终，解决板材损失问题不仅可以延长材料的使用寿命，还可以提高工程项目的整体安全性和效率。