fullness ratio

简明释义

丰满度

英英释义

例句

1.We calculated the fullness ratio of the liquid in the reservoir to plan for future usage.

我们计算了水库中液体的充满比例以规划未来的使用。

2.The fullness ratio of the container determines how much space is available for additional materials.

容器的充满比例决定了可用于额外材料的空间有多少。

3.In this experiment, we measured the fullness ratio to ensure optimal conditions for the reaction.

在这个实验中，我们测量了充满比例以确保反应的最佳条件。

4.To maintain efficiency, the fullness ratio of the storage bins should not exceed 80%.

为了保持效率，储存箱的充满比例不应超过80%。

5.A higher fullness ratio in the tank can lead to increased pressure and potential hazards.

罐中的充满比例过高可能导致压力增加和潜在危险。

作文

In the field of engineering and design, understanding various metrics is crucial for creating efficient and functional products. One such metric that plays a significant role in the evaluation of materials and structures is the fullness ratio. The fullness ratio is defined as the proportion of the volume of a solid object to the volume of the space it occupies. This concept is particularly important in industries such as manufacturing, architecture, and even food science, where the efficiency of material usage can significantly impact overall performance and sustainability.For instance, in the context of packaging, the fullness ratio helps designers determine how well a package utilizes its space. A higher fullness ratio indicates that more of the package's volume is filled with the product, reducing waste and improving cost-effectiveness. In contrast, a lower fullness ratio may suggest that there is excess air or empty space within the package, which could lead to increased shipping costs and a larger environmental footprint due to the need for more materials.Moreover, the fullness ratio can also be applied in architectural design. Architects often strive to maximize the fullness ratio of their buildings to ensure that every square foot is utilized effectively. By analyzing the fullness ratio, architects can create spaces that are not only aesthetically pleasing but also functionally efficient. This is particularly relevant in urban areas where space is limited and the demand for housing and commercial buildings is high.In addition to its applications in packaging and architecture, the fullness ratio is also relevant in the culinary world. Chefs and food scientists use this concept to understand the density and composition of various ingredients. For example, when creating a new recipe or food product, knowing the fullness ratio of different components can help in achieving the desired texture and flavor profile. A well-balanced fullness ratio in a dish ensures that each ingredient complements the others, leading to a harmonious final product.Furthermore, understanding the fullness ratio can aid in sustainability efforts across various industries. By optimizing the fullness ratio in manufacturing processes, companies can minimize material waste and reduce their environmental impact. This is particularly important in today's world, where consumers are increasingly aware of and concerned about sustainability issues. Companies that prioritize efficient use of resources and strive for a higher fullness ratio in their products are likely to gain a competitive edge in the market.In conclusion, the fullness ratio is a vital metric that extends beyond simple calculations; it influences design, functionality, and sustainability in multiple fields. By focusing on maximizing the fullness ratio, professionals can enhance the efficiency of their products and contribute positively to environmental conservation. As we move forward, the importance of understanding and applying the fullness ratio will undoubtedly continue to grow, shaping the future of design and production in innovative ways.

在工程和设计领域，理解各种指标对于创建高效和功能性产品至关重要。其中一个在材料和结构评估中发挥重要作用的指标是满度比。满度比被定义为固体物体的体积与其占据的空间体积的比例。这个概念在制造、建筑甚至食品科学等行业尤为重要，因为材料使用的效率会显著影响整体性能和可持续性。例如，在包装的背景下，满度比帮助设计师确定包装如何有效利用其空间。较高的满度比表示包装的更多体积被产品填充，从而减少浪费并提高成本效益。相反，较低的满度比可能表明包装内有多余的空气或空隙，这可能导致运输成本增加，并由于需要更多材料而对环境造成更大的影响。此外，满度比在建筑设计中也适用。建筑师通常努力最大化建筑的满度比，以确保每平方英尺都得到有效利用。通过分析满度比，建筑师可以创造出不仅美观而且功能高效的空间。这在城市地区尤其相关，因为空间有限，对住房和商业建筑的需求很高。除了在包装和建筑中的应用外，满度比在烹饪世界中也具有重要意义。厨师和食品科学家利用这一概念来理解各种成分的密度和组成。例如，在创建新食谱或食品产品时，了解不同成分的满度比可以帮助实现所需的质地和风味特征。菜肴中良好的满度比确保每种成分相辅相成，最终产品和谐统一。此外，理解满度比可以帮助各行业的可持续发展工作。通过优化制造过程中的满度比，公司可以减少材料浪费，并降低对环境的影响。在当今社会，消费者越来越关注可持续性问题，因此这一点尤为重要。优先考虑资源有效利用并努力提高产品满度比的公司，可能会在市场上获得竞争优势。总之，满度比是一个重要的指标，它不仅仅是简单的计算；它在多个领域影响着设计、功能和可持续性。通过专注于最大化满度比，专业人士可以提高其产品的效率，并积极贡献于环境保护。随着我们向前发展，理解和应用满度比的重要性无疑将继续增长，以创新的方式塑造设计和生产的未来。