retentive alloy

简明释义

硬磁合金

英英释义

例句

1.The dental technician chose a high-quality retentive alloy for the crown to ensure durability.

牙科技术员选择了一种高质量的保留合金用于牙冠，以确保耐用性。

2.Using a retentive alloy in orthodontics can significantly improve the retention of appliances.

在正畸中使用保留合金可以显著提高器械的固定性。

3.The retentive alloy used in the prosthetic device provided excellent support and stability.

义肢中使用的保留合金提供了卓越的支撑和稳定性。

4.The dentist explained how the retentive alloy helps in anchoring the dental implants.

牙医解释了保留合金如何帮助固定牙种植体。

5.Researchers are developing new types of retentive alloy that are more biocompatible.

研究人员正在开发新型的保留合金，以提高生物相容性。

作文

In the field of materials science, various alloys have been developed to meet specific needs in different applications. One such category is the retentive alloy, which is known for its ability to retain certain properties under varying conditions. The term 'retentive' refers to the capacity to hold or maintain something, and when applied to alloys, it implies that these materials can preserve their structural integrity and performance characteristics over time. This quality makes retentive alloys particularly valuable in industries that require durability and reliability.The composition of a retentive alloy typically includes a combination of metals that enhance its strength and resistance to wear and corrosion. For example, nickel and chromium are often added to stainless steel to improve its retentive properties. As a result, retentive alloys are frequently used in applications ranging from aerospace components to medical implants, where failure is not an option.One of the primary advantages of using retentive alloys is their longevity. In environments that experience extreme temperatures or corrosive substances, these alloys can withstand significant stress without degrading. This quality not only extends the lifespan of the products made from retentive alloys but also reduces maintenance costs and the need for frequent replacements.Moreover, retentive alloys are designed to maintain their mechanical properties even after prolonged use. This attribute is crucial in sectors such as automotive and construction, where materials are subjected to continuous strain. Engineers and designers often rely on the predictable behavior of retentive alloys to ensure safety and performance standards are met.In addition to their mechanical benefits, retentive alloys also contribute to energy efficiency. By using materials that do not require frequent replacement or repair, companies can minimize waste and reduce their overall environmental footprint. This aspect aligns with the growing emphasis on sustainability in manufacturing processes.However, it is important to note that not all alloys possess retentive qualities. The effectiveness of a retentive alloy depends on its specific formulation and the conditions it is exposed to. Therefore, thorough testing and analysis are essential to determine the suitability of a particular alloy for a given application.In conclusion, retentive alloys play a critical role in modern engineering and manufacturing. Their ability to retain strength and functionality under challenging conditions makes them indispensable in various industries. As technology advances, the development of new retentive alloys will likely continue, providing even more options for engineers and manufacturers looking to create durable and efficient products.

在材料科学领域，各种合金已经被开发出来，以满足不同应用中的特定需求。其中一个类别是保留合金，它以在不同条件下保持某些性能而闻名。术语“保留”指的是保持或维持某物的能力，当应用于合金时，它意味着这些材料能够在一段时间内保持其结构完整性和性能特征。这种特性使得保留合金在需要耐用性和可靠性的行业中尤其有价值。保留合金的成分通常包括增强其强度和耐磨性、耐腐蚀性的金属组合。例如，镍和铬通常被添加到不锈钢中，以改善其保留性能。因此，保留合金常用于从航空航天部件到医疗植入物等应用中，在这些领域中，失败是不被允许的。使用保留合金的主要优势之一是其耐用性。在经历极端温度或腐蚀性物质的环境中，这些合金可以承受显著的压力而不会降解。这种特性不仅延长了由保留合金制成的产品的使用寿命，还减少了维护成本和频繁更换的需要。此外，保留合金还设计为即使在长期使用后也能保持其机械性能。这一特性在汽车和建筑等领域至关重要，因为这些材料经常承受持续的压力。工程师和设计师通常依赖保留合金的可预测行为，以确保安全和性能标准得到满足。除了机械优点外，保留合金还促进了能源效率。通过使用不需要频繁更换或修理的材料，公司可以最大限度地减少废物，并降低整体环境足迹。这一方面与制造过程日益重视可持续性相一致。然而，需要注意的是，并非所有合金都具有保留特性。保留合金的有效性取决于其具体配方和所暴露的条件。因此，彻底的测试和分析对于确定特定合金是否适合某一应用至关重要。总之，保留合金在现代工程和制造中发挥着关键作用。它们在挑战性条件下保持强度和功能的能力使其在各行各业中不可或缺。随着技术的进步，新型保留合金的开发可能会继续，为寻求创造耐用和高效产品的工程师和制造商提供更多选择。