fibre strength

简明释义

纤维强度;

英英释义

例句

1.The engineer conducted tests to measure the fibre strength of the new composite material.

工程师进行了测试，以测量新复合材料的纤维强度。

2.High fibre strength is essential for creating durable textiles.

高纤维强度对制造耐用纺织品至关重要。

3.The fibre strength of natural fibers can vary significantly depending on the source.

天然纤维的纤维强度可能因来源而异。

4.Manufacturers often look for ways to enhance the fibre strength in their products.

制造商通常寻找增强产品中纤维强度的方法。

5.In construction, materials with high fibre strength are preferred for safety.

在建筑中，优先选择具有高纤维强度的材料以确保安全。

作文

Fibre strength is a crucial property in the field of materials science and engineering. It refers to the ability of a fibre to withstand tension or stress without breaking. In various applications, especially in textiles, construction, and composite materials, understanding and optimizing fibre strength (纤维强度) is essential for ensuring durability and performance. For instance, in the textile industry, fabrics made from high fibre strength (纤维强度) materials are more resistant to wear and tear, making them suitable for heavy-duty applications such as workwear and outdoor gear.In composite materials, the fibre strength (纤维强度) plays a significant role in determining the overall mechanical properties of the final product. Engineers often select fibres with high fibre strength (纤维强度) to reinforce polymers and other matrices, resulting in lightweight yet strong materials used in aerospace, automotive, and sporting goods industries. The synergy between the matrix and the reinforcing fibres can lead to enhanced performance characteristics, including increased tensile strength, stiffness, and impact resistance.Moreover, the fibre strength (纤维强度) is influenced by several factors, including the type of material, the manufacturing process, and environmental conditions. Natural fibres, such as cotton, wool, and flax, have varying fibre strength (纤维强度) due to their inherent properties and growth conditions. On the other hand, synthetic fibres like nylon, polyester, and aramid are engineered to achieve specific fibre strength (纤维强度) values, which can be tailored to meet the demands of particular applications.Testing the fibre strength (纤维强度) is vital for quality control and product development. Various methods, such as tensile testing and microstructural analysis, are employed to evaluate the strength of fibres. By understanding the results, manufacturers can make informed decisions about material selection and processing techniques to enhance the fibre strength (纤维强度) of their products.In conclusion, fibre strength (纤维强度) is an essential aspect of material performance across various industries. Its significance cannot be overstated, as it directly affects the usability, longevity, and safety of products made from fibrous materials. As technology advances, ongoing research into improving fibre strength (纤维强度) will continue to drive innovation, leading to the development of stronger, lighter, and more efficient materials that can meet the challenges of modern applications.

纤维强度是材料科学和工程领域中的一个关键属性。它指的是纤维在不破裂的情况下承受拉伸或压力的能力。在各种应用中，尤其是在纺织、建筑和复合材料中，理解和优化纤维强度(纤维强度)对于确保耐用性和性能至关重要。例如，在纺织工业中，由高纤维强度(纤维强度)材料制成的面料对磨损和撕裂更具抵抗力，使其适合用于重型应用，如工作服和户外装备。在复合材料中，纤维强度(纤维强度)在决定最终产品的整体机械性能方面起着重要作用。工程师通常选择具有高纤维强度(纤维强度)的纤维来增强聚合物和其他基体，从而生产出轻质但强大的材料，这些材料被广泛应用于航空航天、汽车和运动器材行业。基体和增强纤维之间的协同作用可以导致性能特性的提升，包括增加的拉伸强度、刚度和抗冲击性。此外，纤维强度(纤维强度)受到多种因素的影响，包括材料类型、制造过程和环境条件。天然纤维，如棉花、羊毛和亚麻，由于其固有的特性和生长条件，具有不同的纤维强度(纤维强度)。另一方面，像尼龙、聚酯和芳纶等合成纤维则经过工程设计，以达到特定的纤维强度(纤维强度)值，这些值可以根据特定应用的需求进行调整。测试纤维强度(纤维强度)对于质量控制和产品开发至关重要。采用多种方法，例如拉伸测试和微观结构分析，来评估纤维的强度。通过理解结果，制造商可以就材料选择和加工技术做出明智的决策，以增强其产品的纤维强度(纤维强度)。总之，纤维强度(纤维强度)是各个行业材料性能的重要方面。它的重要性不容小觑，因为它直接影响到由纤维材料制成的产品的可用性、耐久性和安全性。随着技术的进步，对于提高纤维强度(纤维强度)的持续研究将继续推动创新，导致开发出更强、更轻、更高效的材料，以满足现代应用的挑战。