decay resistance

简明释义

防腐朽能力

英英释义

例句

1.Researchers are studying the decay resistance 抗腐烂能力 of various wood species for construction purposes.

研究人员正在研究不同木材种类在建筑中所需的decay resistance 抗腐烂能力。

2.The new composite material shows excellent decay resistance 抗腐烂能力, making it ideal for outdoor furniture.

这种新复合材料表现出优异的decay resistance 抗腐烂能力，非常适合用于户外家具。

3.This biodegradable plastic has improved decay resistance 抗腐烂能力, allowing it to last longer in the environment.

这种可生物降解塑料具有改善的decay resistance 抗腐烂能力，使其在环境中更持久。

4.Using preservatives can enhance the decay resistance 抗腐烂能力 of wooden structures.

使用防腐剂可以增强木结构的decay resistance 抗腐烂能力。

5.The study highlights the importance of decay resistance 抗腐烂能力 in prolonging the lifespan of agricultural products.

这项研究强调了decay resistance 抗腐烂能力在延长农产品保质期中的重要性。

作文

In today's world, the concept of decay resistance is becoming increasingly important, especially in fields such as materials science, engineering, and environmental sustainability. Decay resistance refers to the ability of a material or structure to withstand degradation over time due to various factors such as moisture, temperature fluctuations, and biological organisms. Understanding this property is crucial for developing products that not only meet immediate needs but also have a long lifespan and minimal environmental impact.One of the key areas where decay resistance plays a significant role is in construction materials. For example, wood is a widely used building material, but it is also susceptible to decay caused by fungi, insects, and moisture. To combat this issue, engineers and architects are now turning to treated woods and composite materials that exhibit enhanced decay resistance. These materials are designed to last longer and require less maintenance, which ultimately leads to cost savings and less waste in landfills.In addition to construction, decay resistance is also vital in the preservation of historical artifacts and structures. Museums and conservationists strive to protect ancient relics from the ravages of time, and understanding how to enhance their decay resistance is essential. This can involve using specialized coatings, controlled environments, and careful handling techniques to minimize exposure to harmful elements. By improving the decay resistance of these items, we can ensure that future generations will be able to appreciate and learn from our history.Furthermore, the concept of decay resistance extends to the realm of food preservation. In the food industry, maintaining the freshness and quality of products is paramount. Techniques such as vacuum sealing, refrigeration, and the use of preservatives all contribute to increasing the decay resistance of perishable goods. This not only reduces food waste but also enhances food security by ensuring that more people have access to safe and nutritious food.The implications of decay resistance are also evident in the context of waste management. As society becomes more aware of the environmental impact of waste, there is a growing emphasis on developing materials that are not only durable but also recyclable or biodegradable. By focusing on decay resistance, manufacturers can create products that break down more easily at the end of their life cycle, thus reducing the burden on landfills and promoting a more sustainable future.In conclusion, the importance of decay resistance cannot be overstated. From construction to food preservation and waste management, understanding and enhancing this property is essential for creating a more sustainable and efficient world. As technology continues to advance, we must prioritize research and innovation in this area to ensure that we are not only meeting the needs of today but also safeguarding the environment for future generations. By doing so, we can create a more resilient society that values longevity and sustainability, ultimately leading to a healthier planet.

在当今世界，decay resistance的概念变得越来越重要，尤其是在材料科学、工程和环境可持续性等领域。Decay resistance指的是材料或结构抵御由于湿气、温度波动和生物有机体等各种因素引起的降解的能力。理解这一特性对于开发不仅满足即时需求而且具有长寿命和最小环境影响的产品至关重要。Decay resistance发挥重要作用的关键领域之一是建筑材料。例如，木材是一种广泛使用的建筑材料，但它也容易受到真菌、昆虫和湿气引起的腐烂。为了应对这个问题，工程师和建筑师现在转向处理过的木材和复合材料，这些材料表现出增强的decay resistance。这些材料旨在更耐用，维护需求更少，从而最终节省成本并减少填埋场的废物。除了建筑之外，decay resistance在历史文物和建筑的保护中也至关重要。博物馆和保护工作者努力保护古代遗物免受时间侵蚀，了解如何增强它们的decay resistance至关重要。这可能涉及使用专门的涂层、控制环境和小心处理技术，以尽量减少暴露于有害元素。通过提高这些物品的decay resistance，我们可以确保后代能够欣赏和学习我们的历史。此外，decay resistance的概念还扩展到食品保存的领域。在食品行业，保持产品的新鲜度和质量至关重要。真空密封、冷藏和使用防腐剂等技术都有助于提高易腐食品的decay resistance。这不仅减少了食品浪费，还通过确保更多人能够获得安全和营养丰富的食品来增强食品安全。Decay resistance的影响在废物管理的背景下也显而易见。随着社会越来越意识到废物对环境的影响，越来越强调开发不仅耐用而且可回收或生物降解的材料。通过关注decay resistance，制造商可以创造出在生命周期结束时更容易分解的产品，从而减少对填埋场的负担，并促进更可持续的未来。总之，decay resistance的重要性不容低估。从建筑到食品保存和废物管理，理解和增强这一特性对于创造一个更可持续和高效的世界至关重要。随着技术的不断进步，我们必须优先考虑这一领域的研究和创新，以确保我们不仅满足当今的需求，还为未来几代人保护环境。通过这样做，我们可以创造一个更具韧性的社会，重视持久性和可持续性，最终实现一个更健康的星球。