cross links

简明释义

十字头联杆

英英释义

例句

1.In polymer chemistry, cross links (交联) help improve the mechanical properties of materials.

在聚合物化学中，cross links（交联）有助于提高材料的机械性能。

2.The protein structure is stabilized by the formation of cross links (交联) between different chains.

蛋白质结构通过不同链之间形成的cross links（交联）而稳定。

3.The cross links (交联) in this gel provide it with its unique elasticity.

这个凝胶中的cross links（交联）赋予它独特的弹性。

4.The presence of cross links (交联) in the DNA structure is crucial for its stability.

DNA结构中存在的cross links（交联）对其稳定性至关重要。

5.Researchers are studying how cross links (交联) affect the durability of dental materials.

研究人员正在研究cross links（交联）如何影响牙科材料的耐用性。

作文

In the realm of scientific research, particularly in biochemistry, the term cross links refers to the connections that form between different molecules, which can significantly impact their structure and function. These cross links are crucial for stabilizing proteins and other macromolecules, allowing them to maintain their integrity under various conditions. For instance, in collagen, which is a fundamental protein in connective tissues, cross links provide the necessary strength and resilience, making it vital for the structural integrity of skin, bones, and cartilage.Understanding the role of cross links extends beyond just the biological context; it also has implications in materials science. In the development of polymers, cross links can enhance the mechanical properties of the material, improving its durability and resistance to deformation. This is particularly important in industries such as automotive and aerospace, where materials must withstand extreme conditions while maintaining performance.Moreover, the concept of cross links can be applied metaphorically in various fields, including education and networking. In an educational setting, cross links can represent the connections between different subjects and disciplines. For example, understanding mathematics can enhance one's ability to grasp concepts in physics, as both subjects often share foundational principles. By fostering these cross links, educators can create a more integrated learning experience that encourages critical thinking and problem-solving skills.Networking, too, benefits from the idea of cross links. In professional environments, establishing cross links among colleagues can lead to collaborative opportunities and innovative ideas. When individuals from different backgrounds and expertise come together, they can create a network of knowledge that enhances creativity and productivity. This interconnectedness is essential in today’s fast-paced world, where the ability to adapt and innovate is paramount.In conclusion, the significance of cross links transcends the boundaries of science and technology. Whether in the structural integrity of proteins, the enhancement of materials, or the fostering of interdisciplinary connections in education and networking, cross links play a pivotal role in ensuring stability, resilience, and innovation. As we continue to explore the complexities of our world, recognizing and harnessing the power of cross links will undoubtedly lead to greater advancements and a deeper understanding of the intricate web of relationships that define our existence.

在科学研究的领域，尤其是生物化学中，术语交联指的是不同分子之间形成的连接，这些连接可以显著影响它们的结构和功能。这些交联对于稳定蛋白质和其他大分子至关重要，使它们能够在各种条件下保持完整性。例如，在胶原蛋白中，这是一种基本的结缔组织蛋白，交联提供了必要的强度和韧性，使其对皮肤、骨骼和软骨的结构完整性至关重要。理解交联的作用不仅仅局限于生物学背景；它在材料科学中也有重要意义。在聚合物的发展中，交联可以增强材料的机械性能，提高其耐用性和抗变形能力。这在汽车和航空航天等行业尤为重要，因为这些材料必须在极端条件下保持性能。此外，交联的概念还可以在教育和网络中进行隐喻性的应用。在教育环境中，交联可以代表不同学科和领域之间的联系。例如，理解数学可以增强一个人掌握物理概念的能力，因为这两个学科通常共享基础原则。通过促进这些交联，教育工作者可以创造一个更为综合的学习体验，鼓励批判性思维和解决问题的能力。网络建设同样受益于交联的理念。在专业环境中，建立同事之间的交联可以带来合作机会和创新想法。当来自不同背景和专业的人聚集在一起时，他们可以创建一个知识网络，增强创造力和生产力。这种相互联系在当今快速发展的世界中至关重要，因为适应和创新的能力是至关重要的。总之，交联的重要性超越了科学和技术的界限。无论是在蛋白质的结构完整性、材料的增强，还是在教育和网络中促进跨学科的联系，交联在确保稳定性、韧性和创新方面发挥着关键作用。随着我们继续探索世界的复杂性，认识并利用交联的力量无疑将导致更大的进步，并加深我们对定义我们存在的复杂关系网的理解。