friability

简明释义

英[fraɪəˈbɪləti]美[fraɪəˈbɪlɪti]

n. 易碎性；脆弱

英英释义

单词用法

同义词

反义词

例句

1.Methods The influence of roller pressure, roller speed, and water content of extract powder on yield and friability of particle diameter was investigated.

方法考察压轮压力、压轮转速和浸膏粉含水量对颗粒得率和颗粒脆碎度的影响。

2.RESULTS the different standards of factor are different to the influence level of friability.

结果因素的不同水平对脆碎度的影响程度不同。

3.And all of a sudden in the twentieth century came the discovery of its fragility and friability.

然而一夜之间，但到了二十世纪，这力量的脆弱被发现。

4.The change of the components leads to high temperature stress, as well as remarkable shrinkage and deformation; also, its characteristics induce friability and fissility of concrete.

现代混凝土组分的变化导致了温度应力高、收缩变形大，早强和高强也引发了混凝土的早裂和高脆性。

5.Thus, the utility model gets rid of friability of traditional ceramic vessel and easy heat transfer and hand burning of traditional stainless steel container.

采用本实用新型解决了原有陶瓷容器容易被碰碎的问题，同时也解决了不锈钢容器易传热烫手的问 题。

6.The results showed that the friability, abrasion and particles size distribution properties related to microstructure and source of mineral formation of limestone.

结果表明：石灰石的易碎性、磨蚀性、物料粒度特点与石灰石微观结构及矿物成因有关。

7.The change of the components leads to high temperature stress, as well as remarkable shrinkage and deformation; also, its characteristics induce friability and fissility of concrete.

现代混凝土组分的变化导致了温度应力高、收缩变形大，早强和高强也引发了混凝土的早裂和高脆性。

8.Method: Inspect the influence of roller press, roller speed and the water content of extract powder on yield and friability of particle diameter.

方法：考察轧轮压力、轧轮转速和浸膏粉含水量对颗粒得率和颗粒脆碎度的影响。

9.The friability of the material was tested to ensure it would not crumble under pressure.

为了确保材料在压力下不会崩溃，测试了其脆性。

10.In pharmaceuticals, the friability of tablets is crucial for ensuring they can withstand handling and transportation.

在制药行业，药片的脆性对确保其能承受处理和运输至关重要。

11.The friability of the rock samples indicated how easily they could be broken down during mining.

岩石样本的脆性表明它们在采矿过程中多容易被破碎。

12.A high level of friability in the clay can affect its performance in pottery making.

粘土的高脆性可能会影响其在陶艺制作中的表现。

13.The geologist measured the friability of the soil to determine its suitability for construction.

地质学家测量了土壤的脆性以确定其是否适合建筑。

作文

The concept of friability is often encountered in various fields, particularly in geology, pharmaceuticals, and materials science. Understanding friability can significantly impact how we approach the study and application of different materials. In geology, for instance, friability refers to the tendency of rocks or soils to crumble easily when subjected to pressure or mechanical force. This characteristic is crucial for geologists as it helps them assess the stability of geological formations and predict potential erosion or landslides. The more friable a material is, the more likely it is to break down over time, which can lead to significant changes in the landscape.In the pharmaceutical industry, friability plays a vital role in determining the quality and performance of tablets. Tablets that are too friable may break apart during handling, transport, or storage, leading to dosage inaccuracies and reduced efficacy. Manufacturers conduct friability tests to ensure that their products can withstand the rigors of distribution without compromising their integrity. A tablet with low friability is desirable, as it indicates that the product will maintain its shape and effectiveness until it reaches the consumer.Moreover, in materials science, friability is an essential property that influences the durability and usability of various substances, including construction materials. For example, bricks and concrete must possess adequate friability levels to ensure they can withstand environmental pressures without deteriorating. Engineers and architects must consider friability when selecting materials for construction projects, as it affects not only the longevity of structures but also safety.The implications of friability extend beyond scientific and industrial applications; they also have environmental consequences. Soil friability is a critical factor in agriculture, as it affects water retention, root penetration, and nutrient availability for crops. Farmers must manage soil friability effectively to promote healthy plant growth and sustainable farming practices. Compacted or overly friable soil can lead to poor crop yields and increased erosion, highlighting the importance of maintaining a balance.In conclusion, friability is a multifaceted concept that impacts various domains, from geology to pharmaceuticals and materials science. Its significance cannot be overstated, as it affects the stability, quality, and environmental sustainability of materials and ecosystems. By understanding friability, professionals in these fields can make informed decisions that enhance the performance and safety of their products and practices. As we continue to advance in technology and science, the study of friability will remain a crucial area of focus, ensuring that we develop resilient materials and sustainable practices for future generations.

“脆性”这个概念在多个领域中经常出现，特别是在地质学、制药和材料科学中。理解“脆性”可以显著影响我们对不同材料的研究和应用。在地质学中，例如，“脆性”指的是岩石或土壤在受到压力或机械力时容易崩溃的倾向。这一特性对地质学家至关重要，因为它帮助他们评估地质构造的稳定性，并预测潜在的侵蚀或滑坡。材料越“脆性”，其随时间崩解的可能性就越大，这可能导致景观的重大变化。在制药行业中，“脆性”在确定药片的质量和性能方面起着至关重要的作用。过于“脆性”的药片可能在处理、运输或存储过程中破裂，从而导致剂量不准确和效果降低。制造商进行“脆性”测试，以确保他们的产品能够承受分发过程中的压力，而不损害其完整性。低“脆性”的药片是理想的，因为这表明该产品将在到达消费者之前保持其形状和有效性。此外，在材料科学中，“脆性”是影响各种物质（包括建筑材料）耐用性和可用性的一个重要属性。例如，砖块和混凝土必须具备适当的“脆性”水平，以确保它们能够承受环境压力而不 deteriorate。工程师和建筑师在选择建筑项目的材料时，必须考虑“脆性”，因为它不仅影响结构的寿命，还影响安全性。“脆性”的影响超越了科学和工业应用；它还有环境后果。土壤“脆性”是农业中的一个关键因素，因为它影响水分保持、根系穿透和作物的营养供应。农民必须有效管理土壤“脆性”，以促进植物的健康生长和可持续的农业实践。压实或过于“脆性”的土壤可能导致作物产量低下和侵蚀加剧，突显了保持平衡的重要性。总之，“脆性”是一个多方面的概念，影响着从地质学到制药和材料科学等多个领域。它的重要性不容小觑，因为它影响着材料和生态系统的稳定性、质量和环境可持续性。通过理解“脆性”，这些领域的专业人士可以做出明智的决策，从而提高其产品和实践的性能和安全性。随着我们在技术和科学上的不断进步，对“脆性”的研究将仍然是一个至关重要的关注领域，确保我们为未来几代人开发出韧性材料和可持续实践。