degree of swelling

简明释义

溶胀度

英英释义

例句

1.The doctor assessed the degree of swelling 肿胀程度 in the patient's ankle after the injury.

医生在检查病人受伤后脚踝的肿胀程度。

2.The degree of swelling 肿胀程度 was significantly reduced after applying ice.

冰敷后，肿胀程度明显减轻。

3.To determine the degree of swelling 肿胀程度, we need to compare both legs.

为了确定两条腿的肿胀程度，我们需要进行比较。

4.The degree of swelling 肿胀程度 can indicate the severity of the allergic reaction.

肿胀的程度可以指示过敏反应的严重性。

5.After the surgery, the nurse monitored the degree of swelling 肿胀程度 around the incision site.

手术后，护士监测切口周围的肿胀程度。

作文

The phenomenon of swelling is often observed in various materials and biological tissues. When we talk about the degree of swelling, we are referring to the extent to which a material or tissue expands when it absorbs moisture or undergoes a chemical reaction. This concept is particularly significant in fields such as medicine, engineering, and environmental science. Understanding the degree of swelling can help us predict how materials will behave under different conditions, which is crucial for both practical applications and theoretical studies.In the medical field, the degree of swelling is a critical indicator of inflammation or injury. For instance, when a person suffers from an injury, the affected area may swell due to increased blood flow and fluid accumulation. The degree of swelling can provide valuable information about the severity of the injury and guide treatment decisions. Medical professionals often use various methods to measure this swelling, such as using calipers or imaging techniques. By assessing the degree of swelling, they can determine whether further intervention is necessary, such as surgery or medication.In engineering, particularly in the construction of buildings and infrastructure, the degree of swelling of materials like clay or concrete can have significant implications. For example, clay soils can swell when they absorb water, leading to potential structural issues. Engineers must consider the degree of swelling when designing foundations to ensure stability and longevity. If the degree of swelling is not adequately accounted for, it can result in costly repairs and safety hazards in the future.Environmental scientists also study the degree of swelling in relation to soil and plant health. Soil that swells excessively can affect root growth and water drainage, impacting agricultural productivity. By understanding the degree of swelling in different soil types, scientists can develop better land management practices and improve crop yields. Additionally, monitoring the degree of swelling in natural ecosystems can help assess the health of the environment and guide conservation efforts.Furthermore, the degree of swelling is not limited to physical materials; it also applies to polymers and other synthetic substances. In the development of new materials, researchers often manipulate the degree of swelling to achieve desired properties. For example, hydrogels, which are used in medical applications and drug delivery systems, rely on their swelling behavior to function effectively. By controlling the degree of swelling, scientists can design hydrogels that release drugs at specific rates, enhancing their therapeutic effectiveness.In conclusion, the degree of swelling is a multifaceted concept that plays a vital role in various fields. Whether in medicine, engineering, environmental science, or material development, understanding the degree of swelling allows professionals to make informed decisions and improve outcomes. As research continues to advance, the significance of the degree of swelling will likely expand, leading to new innovations and solutions to complex challenges.

肿胀现象在各种材料和生物组织中经常观察到。当我们谈论肿胀程度时，我们指的是材料或组织在吸收水分或经历化学反应时扩展的程度。这个概念在医学、工程和环境科学等领域尤为重要。理解肿胀程度可以帮助我们预测材料在不同条件下的行为，这对于实际应用和理论研究都是至关重要的。在医学领域，肿胀程度是炎症或损伤的重要指标。例如，当一个人受伤时，受影响的区域可能会因血流增加和液体积聚而肿胀。肿胀程度可以提供关于伤害严重程度的宝贵信息，并指导治疗决策。医疗专业人员通常使用各种方法来测量这种肿胀，例如使用卡尺或成像技术。通过评估肿胀程度，他们可以确定是否需要进一步干预，如手术或药物治疗。在工程领域，特别是在建筑和基础设施的建设中，像粘土或混凝土等材料的肿胀程度可能会有重大影响。例如，粘土土壤在吸水时可能会膨胀，导致潜在的结构问题。工程师必须考虑肿胀程度以确保基础的稳定性和耐久性。如果未能充分考虑肿胀程度，可能会导致未来昂贵的维修和安全隐患。环境科学家还研究与土壤和植物健康相关的肿胀程度。过度肿胀的土壤可能会影响根系生长和水分排放，从而影响农业生产力。通过了解不同土壤类型的肿胀程度，科学家可以制定更好的土地管理实践，提高作物产量。此外，监测自然生态系统中的肿胀程度可以帮助评估环境的健康状况并指导保护工作。此外，肿胀程度不仅限于物理材料；它也适用于聚合物和其他合成物质。在新材料的开发中，研究人员通常操控肿胀程度以实现所需的特性。例如，用于医疗应用和药物传递系统的水凝胶依赖于其肿胀行为以有效发挥作用。通过控制肿胀程度，科学家可以设计出以特定速率释放药物的水凝胶，从而增强其治疗效果。总之，肿胀程度是一个多方面的概念，在各个领域中发挥着重要作用。无论是在医学、工程、环境科学还是材料开发中，理解肿胀程度都使专业人士能够做出明智的决策并改善结果。随着研究的不断推进，肿胀程度的重要性可能会扩大，带来新的创新和解决复杂挑战的方案。