adhesion strength

简明释义

粘着强度

英英释义

例句

1.We found that temperature affects the adhesion strength of the adhesive.

我们发现温度会影响粘合剂的粘附强度。

2.The adhesion strength of the tape was insufficient for heavy-duty applications.

该胶带的粘附强度不足以用于重型应用。

3.To improve the adhesion strength, a primer was applied before painting.

为了提高粘附强度，在涂漆前涂上了底漆。

4.In this experiment, we measured the adhesion strength of different materials to find the best combination.

在这个实验中，我们测量了不同材料的粘附强度，以寻找最佳组合。

5.The adhesion strength of the glue was tested to ensure it would hold under pressure.

胶水的粘附强度经过测试，以确保在压力下能够保持粘合。

作文

Adhesion is a fundamental property of materials that describes how well two surfaces stick together. The measure of this sticking ability is referred to as adhesion strength, which indicates the force required to separate two adhered materials. Understanding adhesion strength is crucial in various fields, including engineering, materials science, and even biology. For instance, in construction, the adhesion strength of adhesives used in bonding materials can determine the structural integrity of buildings and other infrastructures. If the adhesion strength is insufficient, it could lead to catastrophic failures, resulting in safety hazards and financial losses.In the realm of materials science, researchers focus on improving the adhesion strength of different materials to enhance their performance in applications ranging from coatings to composites. For example, in the automotive industry, the adhesion strength of paint to metal surfaces is vital for ensuring durability and resistance to corrosion. Manufacturers invest heavily in developing paints that exhibit high adhesion strength to withstand harsh environmental conditions.Moreover, in the medical field, adhesion strength plays a significant role in the effectiveness of various medical devices and implants. For instance, the adhesion strength of drug delivery systems is critical in ensuring that medications are released at the right time and location within the body. A strong adhesion strength can facilitate better integration of implants with biological tissues, improving patient outcomes and reducing complications.The concept of adhesion strength is also essential in everyday life. For example, when using tape, the effectiveness of the tape largely depends on its adhesion strength. If the adhesion strength is too low, the tape will not hold items together effectively, leading to frustration and waste. Similarly, in the world of packaging, the adhesion strength of labels and seals is crucial for ensuring that products remain secure during transportation and storage.To quantify adhesion strength, various tests and measurements are employed, such as peel tests and shear tests. These methods help engineers and scientists understand how different factors, like surface roughness, temperature, and humidity, affect the adhesion strength of materials. By manipulating these factors, they can develop stronger adhesives and coatings that meet specific requirements for diverse applications.In conclusion, adhesion strength is a vital concept that permeates many aspects of our lives. From construction and manufacturing to healthcare and daily activities, understanding and optimizing adhesion strength can lead to safer, more efficient, and more effective products. As technology advances, the study of adhesion strength will continue to evolve, opening new avenues for innovation and improvement across various industries.

粘附性是材料的一个基本属性，描述了两个表面之间粘合的程度。这种粘合能力的衡量被称为粘附强度，它表示分离两个粘合材料所需的力。理解粘附强度在工程、材料科学乃至生物学等多个领域都至关重要。例如，在建筑行业，粘合材料的粘附强度可以决定建筑物和其他基础设施的结构完整性。如果粘附强度不足，可能会导致灾难性的故障，从而造成安全隐患和经济损失。在材料科学领域，研究人员专注于提高不同材料的粘附强度以增强其在涂层和复合材料等应用中的性能。例如，在汽车工业中，油漆与金属表面的粘附强度对于确保耐久性和抗腐蚀性至关重要。制造商在开发具有高粘附强度的油漆上投入重金，以承受恶劣的环境条件。此外，在医疗领域，粘附强度在各种医疗设备和植入物的有效性中发挥着重要作用。例如，药物输送系统的粘附强度对确保药物在体内的正确释放时间和位置至关重要。强的粘附强度可以促进植入物与生物组织的更好整合，提高患者的治疗效果并减少并发症。粘附强度的概念在日常生活中也至关重要。例如，在使用胶带时，胶带的有效性在很大程度上取决于其粘附强度。如果粘附强度太低，胶带将无法有效地将物品固定在一起，从而导致挫败感和浪费。同样，在包装世界中，标签和密封的粘附强度对于确保产品在运输和存储过程中保持安全至关重要。为了量化粘附强度，采用各种测试和测量方法，例如剥离测试和剪切测试。这些方法帮助工程师和科学家了解表面粗糙度、温度和湿度等不同因素如何影响材料的粘附强度。通过操控这些因素，他们可以开发出满足特定要求的更强的粘合剂和涂层。总之，粘附强度是一个渗透我们生活各个方面的重要概念。从建筑和制造到医疗和日常活动，理解和优化粘附强度可以导致更安全、更高效和更有效的产品。随着技术的发展，粘附强度的研究将继续演变，为各个行业的创新和改进开辟新的途径。