tractility

简明释义

英[trækˈtɪlətɪ]美[ˈtrækˌtɪlɪti]

n. 延展性

英英释义

单词用法

同义词

反义词

例句

1.How to maintain a space that can be breathed by spirit, and imagination can be tractility freely.

怎样才能维持一个精神可以自由呼吸、想象力可以自由延展的空间？

2.According to the tractility of Silicon steel sheet, a new processing technics of cutting the narrow-yoke sheet into punching piece and rolling it into motor core was proposed here.

文章根据硅钢片的可延展性，提出一种窄轭冲片套裁成形成冲片条，再盘卷成电机铁心的工艺方法。

3.According to the tractility of Silicon steel sheet, a new processing technics of cutting the narrow-yoke sheet into punching piece and rolling it into motor core was proposed here.

文章根据硅钢片的可延展性，提出一种窄轭冲片套裁成形成冲片条，再盘卷成电机铁心的工艺方法。

4.Mean-while, all of the parameters of left ventricular con-tractility, relaxation, compliance and cardiac re-serve function decreased significantly.

左心室收缩、舒张、顺应性和心泵贮备功能各指标均明显降低。

5.Results: Acellular nerve were milk white columned and translucent, its tractility was slightly increased than before disposal.

结果：去细胞神经呈淡乳白色圆柱状外观，略透亮，其延展性较化学处理前略增加。

6.This paper emphasizes on the discussion and analyze of The Tractility of VI design.

本文着重针对VI设计延展性的问题提出分析与讨论。

7.Based on the above, the tractility of vi design has become an obvious and disturbing problem.

基于此，VI延展性就成了当下在VI设计中的一个突出的、急待解决的问题。

8.This machine is an S-type continuous automatic dough folding and pressing machine. It can increase the tractility and gloss of the dough aw well as its elasticity and density.

该机为S型连续式自动折叠压面，可增加面团延展性与光泽度，同时增加面团的筋性与组织的细密度。

9.Gold is known for its excellent tractility, making it a preferred choice for jewelry.

黄金以其优良的延展性而闻名，使其成为珠宝的首选材料。

10.The metal's high tractility allows it to be easily shaped into wires.

这种金属的高延展性使其能够轻松地被制成电线。

11.The tractility of the polymer makes it suitable for various applications in the industry.

这种聚合物的延展性使其适用于工业中的各种应用。

12.In manufacturing, tractility is crucial for producing thin sheets of material.

在制造业中，延展性对于生产薄材料片至关重要。

13.Engineers often test the tractility of materials before selecting them for construction.

工程师在选择建筑材料之前，通常会测试它们的延展性。

作文

In the realm of materials science and engineering, one of the most fascinating properties that researchers often study is tractility. This term refers to the ability of a material to be stretched or deformed without breaking. It is an essential characteristic for many metals and alloys, especially those used in construction and manufacturing. Understanding tractility is crucial for engineers and designers as it affects how materials will behave under stress and strain during their application.For instance, when designing structures such as bridges or buildings, engineers must consider the tractility of the materials they choose. A material with high tractility can absorb energy and deform significantly before failing, which is advantageous in scenarios where unexpected forces may be applied. This property helps prevent catastrophic failures, making structures safer for public use.Moreover, tractility plays a vital role in the manufacturing processes of various products. In industries like automotive and aerospace, materials are often subjected to shaping processes such as forging, rolling, and extrusion. The tractility of these materials determines how easily they can be formed into desired shapes without cracking or losing integrity. For example, aluminum and copper are known for their excellent tractility, allowing them to be manipulated into thin wires or intricate components without breaking.On the other hand, materials with low tractility, such as certain ceramics or brittle metals, pose challenges during manufacturing. These materials may fracture easily under tension, limiting their applications in industries where flexibility and resilience are required. Therefore, understanding the tractility of materials not only aids in selecting the right material for a specific application but also informs the development of new materials that can meet demanding performance criteria.In addition to its practical implications, tractility also has a significant impact on the economic aspects of production. Materials that exhibit high tractility can often lead to reduced waste during manufacturing processes, as they can be shaped more efficiently. This efficiency translates into cost savings for manufacturers and can contribute to more sustainable practices by minimizing material consumption.As research advances, scientists continue to explore ways to enhance the tractility of materials through alloying, heat treatment, and other methods. Innovations in this field could lead to the development of new materials that combine high strength with exceptional tractility, opening up possibilities for applications that were previously thought impossible.In conclusion, tractility is a fundamental property of materials that influences their behavior under stress, their manufacturability, and their overall utility in various applications. As we strive to create safer, more efficient, and more sustainable products, understanding and improving tractility will remain a key focus in materials science and engineering. By harnessing the power of tractility, we can push the boundaries of what is possible in design and innovation, ultimately leading to advancements that benefit society as a whole.

在材料科学和工程领域，研究人员经常研究的一个令人着迷的特性是延展性。这个术语指的是材料在不破裂的情况下被拉伸或变形的能力。这是许多金属和合金的重要特征，尤其是在建筑和制造中使用的材料。理解延展性对工程师和设计师至关重要，因为它影响材料在应用过程中在应力和应变下的行为。例如，在设计桥梁或建筑等结构时，工程师必须考虑所选择材料的延展性。具有高延展性的材料可以吸收能量并在失败之前显著变形，这在可能施加意外力量的情况下是有利的。这一特性有助于防止灾难性故障，使结构在公众使用时更安全。此外，延展性在各种产品的制造过程中也起着至关重要的作用。在汽车和航空等行业，材料通常会经历锻造、轧制和挤压等成型工艺。材料的延展性决定了它们在不破裂或失去完整性的情况下被形成所需形状的难易程度。例如，铝和铜以其优良的延展性而闻名，允许它们被加工成细线或复杂的组件而不会断裂。另一方面，某些陶瓷或脆性金属等具有低延展性的材料在制造过程中会带来挑战。这些材料在拉伸下容易断裂，限制了它们在需要灵活性和韧性的行业中的应用。因此，理解材料的延展性不仅有助于选择适合特定应用的材料，还为开发能够满足苛刻性能标准的新材料提供了信息。除了其实际意义，延展性还对生产的经济方面产生了重大影响。表现出高延展性的材料往往可以在制造过程中减少废料，因为它们可以更有效地成型。这种效率转化为制造商的成本节约，并有助于通过最小化材料消耗实现更可持续的实践。随着研究的进展，科学家们继续探索通过合金化、热处理和其他方法增强材料的延展性的方法。这一领域的创新可能导致新材料的发展，这些材料结合了高强度与卓越的延展性，为以前认为不可能的应用开辟了可能性。总之，延展性是材料的基本特性，影响其在应力下的行为、可制造性以及在各种应用中的整体效用。随着我们努力创造更安全、更高效和更可持续的产品，理解和改善延展性将始终是材料科学和工程的关键焦点。通过利用延展性的力量，我们可以推动设计和创新的边界，最终带来造福整个社会的进步。