bond strength

简明释义

粘结强度

英英释义

例句

1.The bond strength of the weld is crucial for the integrity of the metal framework.

焊接的粘结强度对于金属框架的完整性至关重要。

2.We need to increase the bond strength of this material to improve its performance.

我们需要提高这种材料的粘结强度以改善其性能。

3.In this experiment, we measured the bond strength between different materials.

在这个实验中，我们测量了不同材料之间的粘结强度。

4.The bond strength of the adhesive was tested to ensure it could hold the structure together.

胶粘剂的粘结强度经过测试，以确保它能够将结构牢固地结合在一起。

5.Higher bond strength typically results in a more durable product.

更高的粘结强度通常会导致产品更加耐用。

作文

In the realm of materials science, understanding the concept of bond strength is essential for engineers and designers. Bond strength refers to the ability of a material to resist separation from another material when subjected to stress. This property is crucial in determining how different materials will perform when they are joined together. For instance, in construction, the bond strength between concrete and steel reinforcement bars can significantly affect the durability and stability of a structure. A strong bond strength ensures that the materials work together effectively, distributing loads evenly and preventing failures. Moreover, bond strength is not limited to just physical materials; it also applies to chemical bonds in molecules. In chemistry, the bond strength of a covalent bond determines how strongly atoms are held together within a molecule. Stronger bonds lead to more stable compounds, while weaker bonds can result in more reactive substances. This principle is vital in fields such as pharmaceuticals, where the stability of a drug compound can influence its efficacy and safety.Additionally, the concept of bond strength extends beyond the physical sciences into social sciences as well. In psychology, the emotional bond strength between individuals can determine the quality of relationships. Strong emotional bonds can lead to greater trust, cooperation, and satisfaction among individuals, whether in personal relationships or within teams in a workplace. Understanding the factors that contribute to bond strength in human interactions can help improve communication and collaboration.Furthermore, in the context of education, bond strength between teachers and students plays a pivotal role in the learning process. A strong bond strength fosters an environment where students feel safe and motivated to engage with the material. Teachers who build strong relationships with their students can better understand their needs and tailor their teaching methods accordingly. This connection can lead to improved academic performance and overall student well-being.In conclusion, bond strength is a multifaceted concept that spans various disciplines. Whether in materials science, chemistry, psychology, or education, the strength of bonds—be they physical, chemical, or emotional—plays a critical role in determining outcomes. By appreciating the significance of bond strength, we can better understand how to create stronger connections, whether in building structures, developing new drugs, fostering relationships, or enhancing educational experiences. Ultimately, recognizing the importance of bond strength allows us to innovate and improve across different fields, leading to a more interconnected and resilient society.

在材料科学领域，理解结合强度的概念对于工程师和设计师来说至关重要。结合强度是指材料在承受应力时抵抗与另一种材料分离的能力。这一特性在决定不同材料组合时的表现至关重要。例如，在建筑中，混凝土与钢筋之间的结合强度会显著影响结构的耐久性和稳定性。强的结合强度确保材料能够有效协同工作，均匀分配负载并防止故障。此外，结合强度不仅仅限于物理材料；它也适用于分子中的化学键。在化学中，共价键的结合强度决定了原子在分子内的结合强度。更强的键导致更稳定的化合物，而较弱的键可能导致更具反应性的物质。这一原理在制药等领域至关重要，因为药物化合物的稳定性会影响其有效性和安全性。此外，结合强度的概念还扩展到社会科学领域。在心理学中，个体之间的情感结合强度可以决定关系的质量。强大的情感纽带可以导致个体之间更大的信任、合作和满意度，无论是在个人关系中还是在工作场所团队中。理解影响人际互动中结合强度的因素可以帮助改善沟通与协作。此外，在教育的背景下，教师与学生之间的结合强度在学习过程中扮演着关键角色。强的结合强度营造了一个学生感到安全和有动力参与学习材料的环境。与学生建立强大关系的教师能够更好地理解他们的需求，并相应地调整教学方法。这种联系可以导致学业表现的提高和整体学生福祉的改善。总之，结合强度是一个跨越多个学科的多面概念。无论是在材料科学、化学、心理学还是教育中，结合的强度——无论是物理的、化学的还是情感的——在决定结果时都发挥着关键作用。通过欣赏结合强度的重要性，我们可以更好地理解如何创造更强的连接，无论是在建造结构、开发新药、促进关系还是增强教育体验方面。最终，认识到结合强度的重要性使我们能够在不同领域进行创新和改进，从而构建一个更加互联和韧性的社会。