air bulking

简明释义

空气胀

英英释义

例句

1.Engineers are studying air bulking to improve insulation properties in building materials.

工程师正在研究空气膨胀以改善建筑材料的绝缘性能。

2.In food processing, air bulking is used to create lighter textures in baked goods.

在食品加工中，空气膨胀用于在烘焙食品中创造更轻的质地。

3.The air bulking technique can significantly enhance the performance of certain types of sports equipment.

空气膨胀技术可以显著提升某些类型运动器材的性能。

4.During the manufacturing of foam, air bulking is essential for creating the desired texture.

在泡沫制造过程中，空气膨胀对于创造所需的质地至关重要。

5.The process of air bulking in packaging helps to reduce material usage.

包装中的空气膨胀过程有助于减少材料的使用。

作文

In the world of modern manufacturing and construction, various techniques and processes are employed to enhance efficiency and performance. One such technique that has gained popularity is air bulking, which refers to the process of incorporating air into materials to improve their properties. This method is particularly significant in industries such as concrete production, where the addition of air can lead to lighter and more durable products. Understanding the concept of air bulking is essential for professionals in these fields, as it directly impacts the quality and sustainability of the materials used.The process of air bulking involves introducing microscopic air bubbles into a material, which creates a cellular structure. This cellular structure not only reduces the overall weight of the material but also enhances its insulating properties. For example, in concrete production, the inclusion of air can improve the material's resistance to freeze-thaw cycles, which is crucial in colder climates. By preventing the formation of cracks and other forms of damage, air bulking contributes to the longevity of concrete structures, making them more reliable and cost-effective in the long run.Moreover, air bulking plays a vital role in the energy efficiency of buildings. Insulating materials that utilize this technique can significantly reduce energy consumption by minimizing heat transfer. As a result, buildings constructed with air bulking materials require less energy for heating and cooling, which not only lowers utility bills but also reduces the carbon footprint associated with energy use. This aligns with the growing emphasis on sustainable construction practices, highlighting the importance of air bulking in achieving environmentally friendly building solutions.In addition to its benefits in construction, air bulking is also utilized in the food industry. For instance, certain food products, such as whipped cream and meringue, rely on the incorporation of air to achieve their desired texture and volume. The process of whipping or aerating these ingredients introduces air bubbles, resulting in a light and airy consistency. This application of air bulking not only enhances the sensory qualities of food but also contributes to the overall consumer experience.Despite its advantages, the implementation of air bulking requires careful consideration and expertise. The size and distribution of air bubbles within a material can significantly affect its performance. If too much air is introduced, it may compromise the structural integrity of the product, leading to weaknesses and failures. Therefore, it is crucial for engineers and manufacturers to optimize the air bulking process, ensuring that the right balance is achieved to maximize benefits while minimizing risks.In conclusion, air bulking is a valuable technique that offers numerous benefits across various industries, from construction to food production. By understanding and mastering this process, professionals can create materials that are not only lighter and more efficient but also contribute to sustainability efforts. As the demand for innovative and eco-friendly solutions continues to grow, the significance of air bulking will undoubtedly increase, making it an essential area of study and application in the modern world.

在现代制造和建筑的世界中，各种技术和工艺被用于提高效率和性能。其中一种日益受到欢迎的技术是气体增量，它指的是将空气引入材料中以改善其特性的过程。这种方法在混凝土生产等行业中尤为重要，因为添加空气可以导致更轻且更耐用的产品。理解气体增量的概念对这些领域的专业人士至关重要，因为它直接影响所用材料的质量和可持续性。气体增量的过程涉及将微小的空气泡引入材料中，从而形成细胞结构。这种细胞结构不仅降低了材料的整体重量，还增强了其绝缘性能。例如，在混凝土生产中，空气的加入可以改善材料抵御冻融循环的能力，这在寒冷气候中至关重要。通过防止裂缝和其他形式的损坏的形成，气体增量有助于混凝土结构的耐久性，使其在长期内更可靠、更具成本效益。此外，气体增量在建筑物的能源效率中也发挥着重要作用。利用这一技术的绝缘材料可以通过最小化热传导显著降低能耗。因此，采用气体增量材料建造的建筑需要较少的加热和制冷能量，这不仅降低了公用事业费用，还减少了与能源使用相关的碳足迹。这与日益重视可持续建筑实践的趋势相一致，突显了气体增量在实现环保建筑解决方案中的重要性。除了在建筑中的优势外，气体增量还被应用于食品工业。例如，某些食品产品，如奶油和蛋白霜，依赖于空气的引入来达到所需的质地和体积。搅打或充气这些成分的过程引入空气泡，形成轻盈和蓬松的质感。这种气体增量的应用不仅增强了食品的感官特性，还对整体消费者体验做出了贡献。尽管有其优势，但实施气体增量需要仔细考虑和专业知识。材料中空气泡的大小和分布会显著影响其性能。如果引入过多的空气，可能会损害产品的结构完整性，导致弱点和故障。因此，工程师和制造商必须优化气体增量过程，确保实现所需平衡，以最大化收益，同时最小化风险。总之，气体增量是一种有价值的技术，在建筑、食品生产等各个行业提供了众多好处。通过理解和掌握这一过程，专业人士可以创造出不仅更轻、更高效，而且有助于可持续发展努力的材料。随着对创新和环保解决方案的需求不断增加，气体增量的重要性无疑将增加，使其成为现代世界中一个必不可少的研究和应用领域。