deformation resistance
简明释义
变形阻力
英英释义
Deformation resistance refers to the ability of a material or structure to withstand changes in shape or size when subjected to external forces. | 变形抗力是指材料或结构在受到外部力量作用时,抵御形状或尺寸变化的能力。 |
例句
1.Engineers often test the deformation resistance 变形抗力 of polymers to determine their suitability for various applications.
工程师通常测试聚合物的变形抗力以确定其在各种应用中的适用性。
2.The deformation resistance 变形抗力 of the material is critical during high-pressure conditions in the manufacturing process.
在制造过程中,高压条件下材料的变形抗力至关重要。
3.The new alloy exhibits excellent deformation resistance 变形抗力, making it ideal for aerospace applications.
这种新合金表现出优异的变形抗力,使其非常适合航空航天应用。
4.Research shows that increasing the temperature can reduce the deformation resistance 变形抗力 of metals.
研究表明,提高温度会降低金属的变形抗力。
5.In construction, materials with high deformation resistance 变形抗力 are crucial for ensuring structural integrity.
在建筑中,具有高变形抗力的材料对确保结构完整性至关重要。
作文
Deformation resistance is a critical property of materials that determines their ability to withstand changes in shape without breaking or yielding. In engineering and construction, understanding this property is essential for ensuring the safety and durability of structures. For example, when designing buildings, engineers must consider the forces that will act upon them, such as wind, earthquakes, and the weight of the materials themselves. The materials chosen must exhibit high deformation resistance (变形抗力) to ensure that they can endure these stresses without undergoing significant deformation.In the context of metals, deformation resistance (变形抗力) is particularly important. Metals are often subjected to various forms of mechanical stress during manufacturing processes like forging, welding, and machining. A metal with low deformation resistance (变形抗力) may warp or bend under pressure, leading to defects in the final product. Thus, metallurgists focus on enhancing this property by alloying different elements or by treating the metal through processes such as heat treatment.The concept of deformation resistance (变形抗力) extends beyond metals to polymers and ceramics as well. For instance, in the automotive industry, the materials used for car frames must not only be lightweight but also possess excellent deformation resistance (变形抗力) to protect passengers in the event of a collision. Similarly, in the field of aerospace, components must withstand extreme conditions while maintaining their structural integrity, which is heavily reliant on their deformation resistance (变形抗力).Moreover, the study of deformation resistance (变形抗力) is vital in the development of new materials. Researchers are constantly exploring innovative composites and nanomaterials that offer superior deformation resistance (变形抗力) compared to traditional materials. These advancements not only improve performance but also contribute to lighter and more fuel-efficient designs in various applications, from consumer electronics to large-scale infrastructure projects.In summary, deformation resistance (变形抗力) is an indispensable characteristic of materials that impacts their performance across multiple industries. A thorough understanding of this property allows engineers and designers to select appropriate materials for specific applications, ensuring that structures and products can withstand the forces they encounter throughout their lifespan. As technology continues to advance, the exploration of deformation resistance (变形抗力) will remain a pivotal area of research, driving innovation and enhancing safety standards in engineering and manufacturing practices.
变形抗力是材料的一项关键属性,决定了它们在不破裂或屈服的情况下承受形状变化的能力。在工程和建筑中,理解这一属性对于确保结构的安全性和耐用性至关重要。例如,在设计建筑物时,工程师必须考虑作用于建筑物的力量,如风、地震以及材料自身的重量。所选择的材料必须表现出高的变形抗力(deformation resistance),以确保它们能够承受这些压力而不会发生显著的变形。在金属的上下文中,变形抗力(deformation resistance)尤其重要。金属在制造过程中常常会受到各种形式的机械应力,例如锻造、焊接和机械加工。具有低变形抗力(deformation resistance)的金属可能在压力下扭曲或弯曲,从而导致最终产品出现缺陷。因此,冶金学家专注于通过合金化不同元素或通过热处理等工艺来增强这一属性。变形抗力(deformation resistance)的概念不仅限于金属,还扩展到聚合物和陶瓷等材料。例如,在汽车工业中,用于汽车车架的材料不仅必须轻便,还必须具备优良的变形抗力(deformation resistance),以保护乘客在碰撞事件中的安全。同样,在航空航天领域,组件必须能够承受极端条件,同时保持其结构完整性,这在很大程度上依赖于它们的变形抗力(deformation resistance)。此外,变形抗力(deformation resistance)的研究对于新材料的开发至关重要。研究人员不断探索提供优越变形抗力(deformation resistance)的创新复合材料和纳米材料,与传统材料相比,这些新材料不仅提高了性能,还为各种应用中的轻量化和更高的燃油效率做出了贡献,从消费电子到大型基础设施项目。总之,变形抗力(deformation resistance)是影响材料在多个行业中性能的重要特性。对这一属性的透彻理解使工程师和设计师能够为特定应用选择合适的材料,确保结构和产品在其整个生命周期内能够承受所遇到的力量。随着技术的不断进步,变形抗力(deformation resistance)的探索将继续成为研究的关键领域,推动创新并提高工程和制造实践中的安全标准。
相关单词
