deformers

简明释义

英[/dɪˈfɔːməz/]美[/dɪˈfɔrmərz/]

n. 造型工具（deformer 的复数形式）

英英释义

单词用法

同义词

反义词

例句

1.In this tutorial, you will learn how to create great looking line renders using extruding and deformers.

在本教程中，您将学习如何创建使用挤压的伟大看行呈现和蒙皮。

2.In this tutorial, you will learn how to create great looking line renders using extruding and deformers.

在本教程中，您将学习如何创建使用挤压的伟大看行呈现和蒙皮。

3.Wires and Wrinkles are curve deformers, which are useful as both sculpting and effects tools.

电线和皱纹的曲线变形，它们既是雕刻和影响的有用工具。

4.Jiggle deformers are unique in that they do not deform surfaces via direct user manipulation.

微动变形是，他们不变形，表面独特的用户通过直接操纵。

5.The deformers will enable your surfaces to behave in a realistic manner.

这个变形器会让你的曲面变形时非常真实。

6.The engineers tested various types of deformers to improve the material's flexibility.

工程师们测试了各种类型的变形器以提高材料的柔韧性。

7.In the manufacturing process, deformers play a crucial role in shaping metal components.

在制造过程中，变形器在塑造金属部件中起着关键作用。

8.The artist used deformers to create unique sculptures from clay.

艺术家使用变形器从粘土中创造独特的雕塑。

9.Advanced deformers can manipulate materials at the molecular level.

先进的变形器可以在分子层面操控材料。

10.The software includes tools for designing and simulating deformers in 3D models.

该软件包括用于设计和模拟3D模型中变形器的工具。

作文

In the study of materials and their properties, the term deformers refers to substances or agents that cause a change in shape or structure of a material. This can occur under various conditions, such as applying force, heat, or chemical reactions. Understanding how deformers work is crucial in fields like engineering, architecture, and manufacturing, where the integrity of materials is paramount. For instance, when designing a bridge, engineers must consider how the materials will respond to stress over time. The presence of deformers, such as heavy loads or environmental factors like temperature fluctuations, can lead to deformation. This could result in bending, warping, or even breaking of structural components if not properly accounted for. Therefore, selecting materials that can withstand the effects of deformers is essential for ensuring safety and durability. In addition to physical forces, deformers can also be chemical. Certain chemicals can react with materials, altering their molecular structure and leading to changes in shape. For example, rusting in metals is a process where iron reacts with oxygen and moisture, leading to a weakened structure. In this case, the rust acts as a deformer, compromising the material's integrity. Moreover, in the realm of plastics and polymers, deformers play a significant role during manufacturing processes. When heated, these materials become malleable and can be shaped into various forms. However, if the heat is not controlled or if the wrong additives are used, it can lead to undesirable deformations. Thus, understanding the behavior of deformers in these contexts is vital for producing high-quality products. The concept of deformers extends beyond just physical and chemical changes. In a broader sense, it can also refer to any influence that alters the original state of a system. For example, in psychology, stressors can be seen as deformers that affect an individual's mental state, leading to changes in behavior or emotional responses. This analogy helps illustrate how the idea of deformation is not limited to physical materials but can also apply to human experiences and interactions. In conclusion, deformers are integral to understanding how materials behave under various conditions. Whether they are physical forces, chemical agents, or even psychological influences, deformers can significantly impact the integrity and functionality of systems. By studying these influences, professionals across various fields can better design and implement solutions that account for potential deformations, ultimately leading to safer and more effective outcomes.

在材料及其性质的研究中，术语deformers指的是导致材料形状或结构发生变化的物质或因素。这种变化可以在各种条件下发生，例如施加力、热量或化学反应。理解deformers的工作原理对于工程、建筑和制造等领域至关重要，因为材料的完整性是首要任务。 例如，在设计桥梁时，工程师必须考虑材料在时间推移下如何应对压力。deformers的存在，例如重负荷或温度波动等环境因素，可能导致变形。这可能会导致结构组件的弯曲、扭曲甚至断裂，因此选择能够承受deformers影响的材料对于确保安全和耐用性至关重要。 除了物理力量，deformers还可以是化学因素。某些化学物质可能与材料反应，改变其分子结构并导致形状变化。例如，金属的生锈过程就是铁与氧气和水分反应，导致结构变弱。在这种情况下，锈蚀作为一种deformer，危害了材料的完整性。 此外，在塑料和聚合物的制造过程中，deformers也发挥着重要作用。当加热时，这些材料变得可塑性强，可以塑造成各种形状。然而，如果温度控制不当或使用了错误的添加剂，可能会导致不良的变形。因此，在这些背景下理解deformers的行为对于生产高质量产品至关重要。 deformers的概念不仅限于物理和化学变化。从更广泛的意义上讲，它还可以指任何影响改变系统原始状态的因素。例如，在心理学中，压力源可以被视为影响个体心理状态的deformers，导致行为或情感反应的变化。这种类比有助于说明变形的概念不仅限于物质，也可以适用于人类的经历和互动。 总之，deformers对于理解材料在各种条件下的行为至关重要。无论是物理力量、化学剂还是甚至心理影响，deformers都可能显著影响系统的完整性和功能。通过研究这些影响，各个领域的专业人士可以更好地设计和实施解决方案，以考虑潜在的变形，从而最终导致更安全和更有效的结果。