plastic state

简明释义

塑性状态

英英释义

例句

1.When heated, certain polymers enter a plastic state 塑性状态 that allows them to be reshaped.

加热时，某些聚合物进入塑性状态 塑性状态，使它们能够被重新塑形。

2.Understanding the plastic state 塑性状态 of metals is crucial for engineers designing components.

理解金属的塑性状态 塑性状态对设计部件的工程师至关重要。

3.The clay remains in a plastic state 塑性状态 until it dries out completely.

在完全干燥之前，粘土保持在塑性状态 塑性状态。

4.During the manufacturing process, the metal is heated until it reaches a plastic state 塑性状态 where it can be easily molded.

在制造过程中，金属被加热到达到塑性状态 塑性状态，可以轻松成型。

5.In the plastic state 塑性状态, the material can be stretched and deformed without breaking.

在塑性状态 塑性状态下，材料可以被拉伸和变形而不破裂。

作文

The concept of the plastic state refers to a condition in which materials can be easily shaped or molded without breaking. This term is often used in various scientific fields, particularly in material science and geology. Understanding the plastic state is crucial for many applications, from manufacturing processes to understanding natural phenomena. In material science, the plastic state describes a phase where a substance, such as metals or polymers, can undergo permanent deformation when subjected to stress. For instance, when metal is heated to a certain temperature, it enters a plastic state, allowing it to be shaped into different forms through processes like forging or casting. This property is essential for engineers and designers who create components that require specific shapes and strengths. Moreover, the plastic state is not limited to artificial materials; it also plays a significant role in geology. When discussing the Earth's mantle, scientists often refer to its ability to flow over geological timescales. In this context, the mantle behaves in a plastic state, allowing tectonic plates to move and shift, leading to earthquakes and volcanic activity. Understanding this behavior helps geologists predict potential hazards and understand the dynamic nature of our planet. The implications of the plastic state extend beyond science and engineering. In psychology, the term has been metaphorically applied to describe human development and learning. Just as materials can be molded in their plastic state, individuals can adapt and change throughout their lives. This adaptability highlights the importance of education and experiences that shape our thoughts, behaviors, and identities. For example, children are often seen as being in a plastic state of development, where their minds are highly receptive to new information and experiences. This period is crucial for cognitive and emotional growth. Educators and parents can take advantage of this plastic state by providing enriching environments that foster curiosity and creativity. In conclusion, the term plastic state encompasses a wide range of meanings across different disciplines. Whether we are discussing materials that can be molded under heat, the geological processes that shape our Earth, or the developmental phases of human life, the plastic state serves as a powerful metaphor for flexibility and adaptation. Embracing this concept can lead to innovations in technology, a deeper understanding of our planet, and more effective educational practices. As we continue to explore the plastic state in various contexts, we unlock new possibilities for growth and transformation in both the physical and abstract realms.

“塑性状态”这一概念指的是材料在不破裂的情况下可以轻易地被塑造或成型的状态。这个术语常用于多个科学领域，尤其是材料科学和地质学。理解“塑性状态”对于许多应用至关重要，从制造过程到理解自然现象。在材料科学中，“塑性状态”描述了一种物质（如金属或聚合物）在受到应力时可以发生永久变形的相位。例如，当金属加热到一定温度时，它进入“塑性状态”，允许通过锻造或铸造等过程被塑造成不同的形状。这一特性对工程师和设计师至关重要，他们创造需要特定形状和强度的组件。此外，“塑性状态”不仅限于人工材料；它在地质学中也发挥着重要作用。当讨论地球的地幔时，科学家们常常提到其能够在地质时间尺度上流动的能力。在这种情况下，地幔表现出一种“塑性状态”，允许构造板块移动和移动，从而导致地震和火山活动。理解这种行为有助于地质学家预测潜在的危险，并理解我们星球的动态特性。“塑性状态”的影响超越了科学和工程。在心理学中，这个术语被隐喻性地应用于描述人类发展和学习。正如材料在其“塑性状态”中可以被塑造一样，个人也可以在他们的生活中适应和改变。这种适应性突显了教育和经历的重要性，它们塑造了我们的思想、行为和身份。例如，儿童常常被视为处于“塑性状态”的发展阶段，他们的思维对新信息和经验高度敏感。这一时期对认知和情感成长至关重要。教育者和父母可以利用这一“塑性状态”，提供丰富的环境以培养好奇心和创造力。总之，术语“塑性状态”涵盖了不同学科中的广泛含义。无论我们是在讨论可以在热量下成型的材料、塑造我们地球的地质过程，还是人类生命的发展阶段，“塑性状态”都作为灵活性和适应性的强大隐喻。拥抱这一概念可以引领技术创新、更深入地理解我们的星球，以及更有效的教育实践。随着我们继续在各种背景下探索“塑性状态”，我们为在物理和抽象领域的成长和转变解锁了新的可能性。