non-destructive means

简明释义

无损探伤法

英英释义

例句

1.The inspection team employed non-destructive means 无损方法 such as ultrasonic testing to evaluate the condition of the pipeline.

检查小组采用了无损方法，如超声波检测，以评估管道的状况。

2.The engineers used non-destructive means 无损方法 to assess the integrity of the bridge without causing any damage.

工程师们使用了无损方法来评估桥梁的完整性，而不造成任何损坏。

3.The company specializes in non-destructive means 无损方法 of testing, ensuring that products are evaluated without compromising their usability.

该公司专注于无损方法的测试，确保产品在评估时不会影响其可用性。

4.Using non-destructive means 无损方法, the researchers were able to study the internal structure of the material without altering its properties.

研究人员利用无损方法，能够研究材料的内部结构，而不改变其性质。

5.In the art restoration process, experts often rely on non-destructive means 无损方法 to analyze the layers of paint without harming the original artwork.

在艺术修复过程中，专家们通常依赖于无损方法来分析油画的层次，而不伤害原作。

作文

In today's world, technology plays a crucial role in various fields, including engineering, manufacturing, and even art preservation. One of the most important concepts that has emerged in these areas is the use of non-destructive means (非破坏性手段) for testing and analysis. This approach allows professionals to assess the integrity and quality of materials and structures without causing any damage. In this essay, I will discuss the significance of non-destructive means (非破坏性手段) and provide examples of its applications in different industries.Firstly, the construction industry greatly benefits from non-destructive means (非破坏性手段). Engineers and architects often need to evaluate the condition of existing structures, such as bridges, buildings, and tunnels, to ensure they are safe for use. Traditional methods of inspection might involve drilling or cutting into materials, which can compromise their integrity. However, by utilizing non-destructive means (非破坏性手段) like ultrasonic testing, radiography, and magnetic particle inspection, professionals can gather essential data about the material's properties without inflicting harm. These techniques allow for accurate assessments while preserving the structure's original state.Secondly, in the field of manufacturing, non-destructive means (非破坏性手段) are vital for quality control. For instance, during the production of aerospace components, it is critical to ensure that every part meets stringent safety standards. By employing methods such as eddy current testing and dye penetrant inspection, manufacturers can identify defects or irregularities in materials before they are assembled into larger systems. This proactive approach not only enhances the safety of the final product but also reduces costs associated with recalls and repairs due to faulty components.Moreover, the art conservation sector has also adopted non-destructive means (非破坏性手段) to preserve and restore valuable artworks and historical artifacts. Techniques such as infrared reflectography and X-ray fluorescence spectroscopy enable conservators to analyze the composition and condition of paintings, sculptures, and other cultural heritage items without altering them. This is particularly important when dealing with fragile or irreplaceable works, as it allows for informed decision-making regarding restoration efforts while maintaining the integrity of the original piece.In addition to these specific applications, the overarching benefit of non-destructive means (非破坏性手段) lies in their ability to save time and resources. By avoiding unnecessary damage during inspections, companies can minimize downtime and maintain productivity. Furthermore, the data gathered through these methods often leads to more informed decisions, ultimately enhancing overall efficiency and effectiveness in various processes.In conclusion, the concept of non-destructive means (非破坏性手段) is essential in multiple industries, providing a safe and effective way to evaluate materials and structures. From construction and manufacturing to art conservation, the ability to assess integrity without causing damage is invaluable. As technology continues to advance, we can expect to see even more innovative non-destructive means (非破坏性手段) being developed, further enhancing our ability to preserve and protect our infrastructure, products, and cultural heritage.

在当今世界，技术在工程、制造甚至艺术保护等各个领域中发挥着至关重要的作用。其中一个重要概念是使用非破坏性手段进行测试和分析。这种方法使专业人士能够评估材料和结构的完整性和质量，而不会造成任何损害。在这篇文章中，我将讨论非破坏性手段的重要性，并提供其在不同行业中的应用示例。首先，建筑行业从非破坏性手段中受益匪浅。工程师和建筑师常常需要评估现有结构（如桥梁、建筑物和隧道）的状况，以确保它们的安全性。传统的检查方法可能涉及钻孔或切割材料，这可能会损害其完整性。然而，通过利用诸如超声波检测、射线照相和磁粉检测等非破坏性手段，专业人士可以收集有关材料特性的基本数据，而不会对其造成伤害。这些技术允许准确评估，同时保持结构的原始状态。其次，在制造领域，非破坏性手段对于质量控制至关重要。例如，在航空航天组件的生产过程中，确保每个部件符合严格的安全标准是至关重要的。通过采用如涡流检测和染料渗透检测等方法，制造商可以在将部件组装成更大系统之前识别材料中的缺陷或不规则性。这种主动的方法不仅增强了最终产品的安全性，还减少了因故障部件而导致的召回和维修相关成本。此外，艺术保护领域也采用了非破坏性手段来保护和修复有价值的艺术品和历史文物。红外反射摄影和X射线荧光光谱等技术使保护者能够分析绘画、雕塑和其他文化遗产物品的组成和状况，而不会改变它们。这在处理脆弱或不可替代的作品时尤为重要，因为它使得关于修复工作的知情决策成为可能，同时保持原作的完整性。除了这些具体应用之外，非破坏性手段的总体好处在于它们能够节省时间和资源。通过避免在检查过程中造成不必要的损害，公司可以减少停工时间，保持生产力。此外，通过这些方法收集的数据往往会导致更明智的决策，最终提高各个过程的整体效率和效果。总之，非破坏性手段的概念在多个行业中至关重要，提供了一种安全有效的方式来评估材料和结构。从建筑和制造到艺术保护，能够在不造成损害的情况下评估完整性是无价的。随着技术的不断进步，我们可以期待看到更多创新的非破坏性手段被开发出来，进一步增强我们保护和维护基础设施、产品和文化遗产的能力。