depth of penetration

简明释义

熔深穿透深度

英英释义

例句

1.The engineer measured the depth of penetration to ensure the foundation was stable.

工程师测量了渗透深度以确保基础稳定。

2.In geology, understanding the depth of penetration of seismic waves can reveal important information about the Earth's crust.

在地质学中，了解地震波的渗透深度可以揭示关于地壳的重要信息。

3.The depth of penetration of the bullet into the target was analyzed for forensic purposes.

为了法医目的，分析了子弹对目标的渗透深度。

4.The survey focused on the depth of penetration of groundwater in the region.

调查集中在该地区地下水的渗透深度。

5.To improve the product's effectiveness, we need to increase the depth of penetration of the active ingredients.

为了提高产品的有效性，我们需要增加活性成分的渗透深度。

作文

In the realm of scientific research, the term depth of penetration refers to the extent to which a substance can infiltrate or permeate another material. This concept is crucial in various fields, including materials science, medicine, and even environmental studies. Understanding the depth of penetration of different substances allows researchers and practitioners to develop better applications for their work, whether it be in creating more effective drugs, improving construction materials, or assessing environmental impacts.For instance, in the medical field, the depth of penetration of a drug into human tissue can significantly affect its efficacy. When developing a new medication, scientists must consider how deeply the drug can penetrate the target area to ensure that it reaches the intended site of action. If a drug does not penetrate deeply enough, it may fail to produce the desired therapeutic effects, leading to ineffective treatment outcomes. Thus, understanding the depth of penetration is vital for optimizing drug formulations and delivery methods.In materials science, the depth of penetration can determine the performance and durability of materials used in construction or manufacturing. For example, when applying protective coatings to metal surfaces, the depth of penetration of the coating can influence its ability to prevent corrosion. A coating that penetrates deeply into the surface may provide superior protection compared to one that only adheres to the outer layer. This knowledge helps engineers select the right materials for specific applications, ensuring longevity and reliability.Moreover, in environmental studies, the depth of penetration of pollutants into soil and water systems is a critical factor in assessing contamination levels. By understanding how deeply harmful substances can infiltrate these ecosystems, scientists can develop strategies for remediation and prevention. For instance, if a chemical spill occurs, knowing the depth of penetration of the contaminant can help determine the necessary measures to clean up the affected area effectively.The importance of depth of penetration extends beyond scientific research; it also has practical implications in everyday life. Take, for example, the application of sunscreen. The depth of penetration of UV filters in sunscreen products can impact their effectiveness in protecting the skin from harmful rays. Consumers often seek products that provide adequate coverage and deep penetration to ensure maximum protection against sun damage. Therefore, understanding how various formulations affect the depth of penetration of active ingredients is essential for both manufacturers and consumers.In conclusion, the concept of depth of penetration plays a pivotal role in numerous fields, influencing everything from medical treatments to environmental assessments. By gaining a deeper understanding of how substances interact with various materials, researchers and professionals can make informed decisions that lead to better outcomes. Whether it is enhancing drug efficacy, improving material performance, or safeguarding our environment, the depth of penetration remains a fundamental aspect of scientific inquiry and practical application.

在科学研究的领域中，术语深度渗透指的是一种物质能够渗透或渗入另一种材料的程度。这个概念在多个领域中都是至关重要的，包括材料科学、医学甚至环境研究。理解不同物质的深度渗透使研究人员和从业者能够为他们的工作开发更好的应用，无论是在创造更有效的药物、改善建筑材料还是评估环境影响。例如，在医学领域，药物对人体组织的深度渗透可以显著影响其疗效。在开发新药时，科学家必须考虑药物能够深入目标区域的程度，以确保它到达预期的作用部位。如果药物的渗透深度不足，它可能无法产生所需的治疗效果，导致治疗结果不理想。因此，理解深度渗透对于优化药物配方和递送方法至关重要。在材料科学中，深度渗透可以决定用于建筑或制造的材料的性能和耐久性。例如，在金属表面涂覆保护涂层时，涂层的深度渗透可以影响其防止腐蚀的能力。深入渗透到表面的涂层可能比仅附着在外层的涂层提供更优越的保护。这种知识帮助工程师为特定应用选择合适的材料，确保其长久性和可靠性。此外，在环境研究中，污染物在土壤和水系统中的深度渗透是评估污染水平的关键因素。通过理解有害物质能够多深地渗透这些生态系统，科学家可以制定修复和预防的策略。例如，如果发生化学泄漏，了解污染物的深度渗透可以帮助确定清理受影响区域所需的必要措施。深度渗透的重要性超出了科学研究；它在日常生活中也具有实际意义。以防晒霜的应用为例。防晒产品中UV过滤剂的深度渗透可以影响其保护皮肤免受有害射线的有效性。消费者通常会寻找能够提供适当覆盖和深层渗透的产品，以确保最大程度地保护皮肤免受阳光伤害。因此，理解各种配方如何影响活性成分的深度渗透对于制造商和消费者至关重要。总之，深度渗透的概念在多个领域中发挥着关键作用，影响从医疗治疗到环境评估的各个方面。通过更深入地理解物质如何与各种材料相互作用，研究人员和专业人士可以做出明智的决策，从而带来更好的结果。无论是增强药物疗效、改善材料性能还是保护我们的环境，深度渗透始终是科学探究和实际应用的基本方面。