elastomeric

简明释义

英[ɪˌlæstəˈmerɪk]美[ɪˌlæstəˈmerɪk]

adj. [力] 弹性体的；人造橡胶的

英英释义

单词用法

同义词

反义词

例句

1.The bridge is supported by elastomeric bearings and is brought into the correct position by a centering element in the middle in the process of movement.

这座桥由弹性轴承支撑，并在移动过程中由一个定心元素将它带到中间适当的位置之上。

2.A polyurethane with elastomeric properties.

具有弹性体性质的聚氨酯。

3.The effects of synthetic methods, materials and technological conditions on the mechanical properties of elastomeric polyurethane have been studied.

研究了合成方法、原料的种类与配比、硫化工艺条件等因素对聚氨酯弹性体力学性能的影响。

4.Elastomeric Bearings, Engine Mounts, Avionics Mounts, Tuned Vibration Absorbers, Tension-Torsion Straps, Dampers.

弹性体轴承，发动机支架，电子设备支架，调谐吸震。

5.Alternatively, an elastomeric material can be coated onto the blade or form the blade itself.

可替代地，可将弹性材料涂在桨叶上或形成桨叶本身。

6.Elastomeric seat materials are not suitable for steam service.

弹性阀座材料不适合于蒸气管道中。

7.Restriction of wobble-plate engine is given as bevel gear, straight groove, elastomeric straight groove or 8-shape groove mechanism.

摆盘发动机的约束机构主要有圆锥齿轮、直导槽、弹性直导槽和“8”字槽等几种形式。

8.Analysis is made of relation between composition and Characteristics of elastomeric latex coating for exterior wall.

本文分析了弹性外墙乳胶涂料组成与特性关系。

9.The new product features an elastomeric 弹性体的 seal that improves its durability.

新产品采用了一个elastomeric 弹性体的 密封件，提高了其耐用性。

10.In the automotive industry, elastomeric 弹性体的 materials are used for gaskets and seals.

在汽车工业中，elastomeric 弹性体的 材料用于垫圈和密封件。

11.The elastomeric 弹性体的 coating provides excellent resistance to weathering.

这种elastomeric 弹性体的 涂层提供了优异的耐候性。

12.Engineers prefer elastomeric 弹性体的 components for their flexibility and strength.

工程师更喜欢使用elastomeric 弹性体的 组件，因为它们具有灵活性和强度。

13.The elastomeric 弹性体的 foam is ideal for cushioning in packaging applications.

这种elastomeric 弹性体的 泡沫非常适合用于包装应用中的缓冲。

作文

In the world of materials science, the term elastomeric refers to a category of polymers that exhibit elastic properties. These materials are known for their ability to stretch and return to their original shape, making them ideal for various applications. The unique characteristics of elastomeric materials are a result of their molecular structure, which allows them to absorb energy and deform under stress. This property is particularly important in industries such as automotive, aerospace, and construction, where flexibility and durability are paramount. One of the most common examples of elastomeric materials is rubber. Rubber is widely used in tires, seals, and gaskets due to its excellent elasticity and resistance to wear and tear. The ability of elastomeric materials to withstand extreme temperatures and harsh environmental conditions further enhances their utility. For instance, in the automotive industry, elastomeric components are critical for ensuring that vehicles operate smoothly and safely, even in challenging climates. Another significant application of elastomeric materials is in medical devices. Products such as catheters, seals, and tubing often utilize elastomeric polymers because they can provide a comfortable fit while maintaining necessary strength and flexibility. In addition, the biocompatibility of certain elastomeric materials makes them suitable for direct contact with biological tissues, which is essential in medical applications. The manufacturing processes for elastomeric materials vary, but they typically involve methods such as extrusion, molding, and casting. These processes allow manufacturers to create products with specific shapes and properties tailored to their intended use. For example, during the molding process, heat and pressure are applied to transform the raw elastomeric material into a solid form, ready for application. Moreover, the versatility of elastomeric materials extends to their ability to be modified and compounded with other substances. By blending elastomeric polymers with fillers, plasticizers, or other additives, manufacturers can enhance certain properties such as strength, UV resistance, and thermal stability. This adaptability makes elastomeric materials suitable for a wide range of applications across different industries. In recent years, there has been a growing interest in developing sustainable elastomeric materials. As environmental concerns continue to rise, researchers are exploring bio-based alternatives and recycling methods to reduce the ecological footprint of elastomeric products. Innovations in this area could lead to more environmentally friendly options that maintain the performance characteristics of traditional elastomeric materials. In conclusion, the significance of elastomeric materials in modern technology cannot be overstated. Their unique properties, versatility, and wide-ranging applications make them indispensable in numerous fields. As research continues to advance, the future of elastomeric materials looks promising, with potential developments that could further enhance their functionality and sustainability. Understanding the role of elastomeric materials is crucial for anyone involved in engineering, manufacturing, or product design, as they play a vital role in creating innovative solutions to meet the demands of today's world.

在材料科学的世界中，术语elastomeric指的是一种聚合物类别，这些聚合物表现出弹性特性。这些材料因其能够拉伸并恢复到原始形状而闻名，使其在各种应用中理想。elastomeric材料的独特特性是其分子结构的结果，该结构使它们能够吸收能量并在应力下变形。这一特性在汽车、航空航天和建筑等行业中尤为重要，因为这些领域对灵活性和耐用性有着至关重要的需求。 elastomeric材料最常见的例子之一是橡胶。橡胶因其优良的弹性和耐磨性而广泛用于轮胎、密封件和垫圈中。elastomeric材料能够承受极端温度和恶劣环境条件，进一步增强了它们的实用性。例如，在汽车工业中，elastomeric组件对于确保车辆即使在严酷气候下也能平稳安全地运行至关重要。 elastomeric材料的另一个重要应用是在医疗设备中。导管、密封件和管道等产品通常使用elastomeric聚合物，因为它们可以提供舒适的贴合，同时保持必要的强度和灵活性。此外，某些elastomeric材料的生物相容性使其适合与生物组织直接接触，这在医疗应用中至关重要。 elastomeric材料的制造过程各不相同，但通常涉及挤出、模具成型和铸造等方法。这些工艺允许制造商创建特定形状和特性的产品，以适应其预期用途。例如，在模具成型过程中，施加热量和压力以将原料elastomeric材料转化为固态形式，准备应用。 此外，elastomeric材料的多功能性还延伸到它们能够与其他物质进行改性和混合。通过将elastomeric聚合物与填料、增塑剂或其他添加剂混合，制造商可以增强某些特性，如强度、紫外线抵抗力和热稳定性。这种适应性使得elastomeric材料适用于不同领域的广泛应用。 近年来，对开发可持续的elastomeric材料的兴趣日益增长。随着环境问题的持续上升，研究人员正在探索生物基替代品和回收方法，以减少elastomeric产品的生态足迹。在这一领域的创新可能会导致更环保的选择，同时保持传统elastomeric材料的性能特征。 总之，elastomeric材料在现代技术中的重要性不容小觑。它们独特的属性、多样性和广泛的应用使其在众多领域中不可或缺。随着研究的不断推进，elastomeric材料的未来看起来充满希望，潜在的发展可能进一步增强其功能性和可持续性。理解elastomeric材料的作用对于任何参与工程、制造或产品设计的人来说都是至关重要的，因为它们在创造满足当今世界需求的创新解决方案中发挥着重要作用。