x ray testing

简明释义

x 射线检查

英英释义

例句

1.The medical facility uses x ray testing to diagnose fractures in patients.

医疗机构使用x ray testing来诊断患者的骨折。

2.The technician performed x ray testing to check for any internal damages in the equipment.

技术员进行了x ray testing以检查设备内部是否有损坏。

3.During the inspection, x ray testing revealed hidden cracks in the structure.

在检查过程中，x ray testing揭示了结构中隐藏的裂缝。

4.Before the aircraft was cleared for flight, x ray testing was conducted on its components.

在飞机获准起飞之前，对其部件进行了x ray testing。

5.The security team employed x ray testing to inspect luggage at the airport.

安检团队在机场使用x ray testing检查行李。

作文

X-ray testing is a non-destructive examination method widely used in various industries to assess the integrity of materials and structures. This technique employs X-rays, a form of electromagnetic radiation, to penetrate objects and provide detailed images of their internal features. The significance of x ray testing (X射线检测) lies in its ability to reveal hidden flaws, such as cracks, voids, and inclusions, that may compromise the safety and performance of critical components.In the field of manufacturing, x ray testing (X射线检测) plays a crucial role in quality control. For instance, in the aerospace industry, every component must meet stringent safety standards. Engineers utilize x ray testing (X射线检测) to inspect welds and joints in aircraft parts, ensuring that they are free from defects that could lead to catastrophic failures during flight. Similarly, in the automotive sector, x ray testing (X射线检测) is employed to examine the integrity of engine components, ensuring that vehicles remain reliable and safe for consumers.Moreover, x ray testing (X射线检测) is not limited to the industrial realm; it is also prevalent in the medical field. Radiologists use x ray testing (X射线检测) to diagnose various health conditions by capturing images of bones, organs, and tissues. This application of x ray testing (X射线检测) has revolutionized the way healthcare professionals detect fractures, tumors, and other abnormalities within the human body. By providing a clear view of internal structures, x ray testing (X射线检测) enhances diagnostic accuracy and aids in effective treatment planning.The process of x ray testing (X射线检测) involves several steps. First, the object to be tested is positioned in front of an X-ray source. The X-rays emitted pass through the object and are absorbed at varying degrees depending on the material's density and composition. A detector, usually a film or digital sensor, captures the X-rays that emerge from the object, creating an image that can be analyzed by trained technicians. The resulting images, known as radiographs, provide valuable insights into the internal structure of the object being tested.One of the advantages of x ray testing (X射线检测) is its ability to provide immediate results. Unlike other testing methods that may require lengthy preparation or processing times, x ray testing (X射线检测) can yield instant feedback, allowing engineers and medical professionals to make timely decisions. Additionally, as a non-destructive method, x ray testing (X射线检测) does not damage the object being examined, making it an ideal choice for critical components that cannot be replaced easily.Despite its many benefits, x ray testing (X射线检测) does come with some limitations. The effectiveness of this technique can be influenced by factors such as the thickness of the material, the energy of the X-rays used, and the presence of overlapping structures. Furthermore, while x ray testing (X射线检测) is excellent for detecting certain types of flaws, it may not identify all issues, necessitating the use of complementary testing methods for comprehensive evaluation.In conclusion, x ray testing (X射线检测) is an invaluable tool across multiple fields, including manufacturing and healthcare. Its ability to provide detailed internal images without causing damage makes it indispensable for ensuring safety and quality. As technology advances, we can expect further enhancements in x ray testing (X射线检测) techniques, leading to even greater accuracy and efficiency in inspections and diagnostics.

X射线检测是一种广泛应用于各个行业的非破坏性检测方法，用于评估材料和结构的完整性。这种技术利用X射线，一种电磁辐射形式，穿透物体并提供其内部特征的详细图像。x ray testing（X射线检测）的重要性在于其能够揭示隐藏的缺陷，如裂缝、空洞和夹杂物，这些缺陷可能会影响关键部件的安全性和性能。在制造领域，x ray testing（X射线检测）在质量控制中发挥着至关重要的作用。例如，在航空航天工业中，每个部件必须符合严格的安全标准。工程师利用x ray testing（X射线检测）检查飞机部件中的焊接和接头，确保它们没有缺陷，以免在飞行过程中导致灾难性故障。同样，在汽车行业，x ray testing（X射线检测）被用来检查发动机部件的完整性，确保车辆对消费者保持可靠和安全。此外，x ray testing（X射线检测）不仅限于工业领域；它在医疗领域也很普遍。放射科医生使用x ray testing（X射线检测）通过捕捉骨骼、器官和组织的图像来诊断各种健康状况。x ray testing（X射线检测）的这种应用彻底改变了医疗专业人员检测骨折、肿瘤和其他异常情况的方式。通过提供内部结构的清晰视图，x ray testing（X射线检测）提高了诊断的准确性，并有助于有效的治疗计划。x ray testing（X射线检测）的过程涉及几个步骤。首先，待检测的物体被放置在X射线源前。发射的X射线穿过物体，并根据材料的密度和成分以不同的程度被吸收。探测器，通常是胶卷或数字传感器，捕获从物体中透出的X射线，创建可以由受过培训的技术人员分析的图像。生成的图像，称为放射影像，提供了对被检测物体内部结构的宝贵见解。x ray testing（X射线检测）的一个优点是其能够提供即时结果。与其他可能需要较长准备或处理时间的检测方法不同，x ray testing（X射线检测）可以产生即时反馈，使工程师和医疗专业人员能够及时做出决策。此外，作为一种非破坏性的方法，x ray testing（X射线检测）不会损坏被检查的物体，使其成为关键部件的理想选择，这些部件不易更换。尽管有许多好处，x ray testing（X射线检测）确实存在一些局限性。这种技术的有效性可能受到材料厚度、所用X射线能量以及重叠结构存在等因素的影响。此外，虽然x ray testing（X射线检测）非常适合检测某些类型的缺陷，但它可能无法识别所有问题，因此需要使用其他补充检测方法进行全面评估。总之，x ray testing（X射线检测）是多个领域中不可或缺的工具，包括制造业和医疗保健。其在不造成损害的情况下提供详细内部图像的能力，使其在确保安全和质量方面不可或缺。随着技术的进步，我们可以期待x ray testing（X射线检测）技术的进一步提升，从而在检查和诊断中实现更高的准确性和效率。