extrudability

简明释义

英[ɪkˈstruːdəˌbɪlɪti]美[ɪkˈstruːdəˌbɪlɪti]

n. 可挤压性；压出可能性

英英释义

单词用法

同义词

反义词

例句

1.The test results showed that the Mooney viscosity, mixing behavior and curing rate increased, and the filtering and extrudability improved by blending EPDM and an elastic filler in the test compound.

试验配方中并用EPDM和弹性填充剂，胶料门尼粘度、硫化速度和混炼性能得到提高，过滤和挤出工艺性能得到改善。采用试验配方生产的自行车内胎性能良好，达到国家标准要求；

2.The test results showed that the Mooney viscosity, mixing behavior and curing rate increased, and the filtering and extrudability improved by blending EPDM and an elastic filler in the test compound.

试验配方中并用EPDM和弹性填充剂，胶料门尼粘度、硫化速度和混炼性能得到提高，过滤和挤出工艺性能得到改善。采用试验配方生产的自行车内胎性能良好，达到国家标准要求；

3.The extrudability of 7075z aluminum alloy are strongly affected by extrusion temperature and speed.

挤压速度-温度条件强烈地影响棒材挤压成形性。

4.The extrudability of the polymer was tested to ensure it could be shaped effectively during production.

聚合物的挤出性被测试，以确保它在生产过程中能够有效成型。

5.Engineers must consider the extrudability of materials when designing components for 3D printing.

工程师在设计3D打印组件时必须考虑材料的挤出性。

6.The extrudability of the dough affects how well it can be formed into shapes for baking.

面团的挤出性影响其在烘焙时成型的效果。

7.High extrudability is essential for creating fine details in plastic molding processes.

高挤出性对于在塑料成型过程中创造精细细节至关重要。

8.Manufacturers often test the extrudability of their materials to improve production efficiency.

制造商通常测试其材料的挤出性以提高生产效率。

作文

In the world of manufacturing and materials science, the term extrudability refers to the ability of a material to be shaped or formed through an extrusion process. This process involves forcing material through a die to create long shapes with a uniform cross-section. Understanding extrudability is essential for engineers and designers who work with polymers, metals, and other materials that can be extruded. The extrudability of a material can significantly affect the efficiency and quality of the production process, as well as the properties of the final product. For instance, in the plastics industry, materials such as polyethylene and polypropylene are commonly extruded to create various products, from pipes to packaging films. The extrudability of these polymers is influenced by several factors, including their viscosity, temperature, and molecular structure. A high extrudability means that the material can flow easily through the die, resulting in a smooth and consistent output. Conversely, if the extrudability is low, it may lead to defects such as uneven surfaces, bubbles, or even blockages in the extrusion machinery. Moreover, the concept of extrudability extends beyond just the mechanical aspects; it also encompasses the chemical properties of the materials involved. For example, additives can be introduced to enhance the extrudability of certain compounds. These additives may improve flow characteristics or reduce degradation during processing. As a result, manufacturers must carefully consider the formulation of their materials to optimize extrudability while maintaining the desired performance characteristics of the end products. Another critical aspect of extrudability is its impact on sustainability. In recent years, there has been a growing emphasis on developing environmentally friendly materials that can be efficiently extruded. Bioplastics, for example, often have different extrudability properties compared to traditional petroleum-based plastics. Understanding how these new materials behave during the extrusion process is vital for ensuring that they can be produced at scale without compromising quality. In conclusion, extrudability is a fundamental property that influences the manufacturing processes of various materials. Its significance spans across multiple industries, including construction, packaging, and automotive sectors. As technology advances and new materials are developed, the study of extrudability will continue to play a crucial role in innovation and efficiency. By optimizing extrudability, manufacturers can not only enhance product quality but also contribute to more sustainable practices in material production.

在制造和材料科学的世界中，术语extrudability指的是材料通过挤出工艺被塑造或成型的能力。该过程涉及将材料强制通过模具，以创建具有均匀横截面的长形状。理解extrudability对从事聚合物、金属和其他可挤出材料的工程师和设计师至关重要。材料的extrudability可以显著影响生产过程的效率和质量，以及最终产品的性能。 例如，在塑料行业，聚乙烯和聚丙烯等材料通常被挤出以创建各种产品，从管道到包装薄膜。这些聚合物的extrudability受多个因素的影响，包括其粘度、温度和分子结构。高extrudability意味着材料可以轻松流过模具，从而产生光滑且一致的输出。相反，如果extrudability较低，可能会导致缺陷，例如表面不均匀、气泡或甚至挤出机械中的堵塞。 此外，extrudability的概念不仅仅涉及机械方面；它还包括所涉及材料的化学特性。例如，可以引入添加剂来增强某些化合物的extrudability。这些添加剂可能改善流动特性或减少加工过程中的降解。因此，制造商必须仔细考虑材料的配方，以优化extrudability的同时保持最终产品的所需性能特性。 extrudability的另一个关键方面是其对可持续性的影响。近年来，开发可高效挤出的环保材料的重视程度不断提高。例如，生物塑料的extrudability特性通常与传统的石油基塑料不同。理解这些新材料在挤出过程中的行为对于确保它们能够大规模生产而不影响质量至关重要。 总之，extrudability是影响各种材料制造过程的基本属性。它的重要性跨越多个行业，包括建筑、包装和汽车行业。随着技术的进步和新材料的发展，对extrudability的研究将继续在创新和效率中发挥至关重要的作用。通过优化extrudability，制造商不仅可以提高产品质量，还可以为材料生产的可持续实践做出贡献。