degree of size breakage

简明释义

破碎度

英英释义

例句

1.We need to measure the degree of size breakage 尺寸破损程度 before we can finalize the packaging process.

在最终确定包装流程之前，我们需要测量degree of size breakage 尺寸破损程度。

2.The quality control team assessed the degree of size breakage 尺寸破损程度 in the shipment of glassware.

质量控制团队评估了这批玻璃器皿的degree of size breakage 尺寸破损程度。

3.Understanding the degree of size breakage 尺寸破损程度 is crucial for improving product durability.

理解degree of size breakage 尺寸破损程度对提高产品耐用性至关重要。

4.The manufacturer reported a high degree of size breakage 尺寸破损程度 in the last production batch.

制造商报告称上一批生产中存在较高的degree of size breakage 尺寸破损程度。

5.The testing lab analyzed the degree of size breakage 尺寸破损程度 in various types of materials.

测试实验室分析了各种材料的degree of size breakage 尺寸破损程度。

作文

In the realm of manufacturing and material science, understanding the properties of materials is crucial for ensuring quality and durability. One significant aspect that often comes into play is the degree of size breakage, which refers to the extent to which a material has been fragmented or reduced in size due to various factors such as stress, impact, or environmental conditions. This concept is not only important for engineers and manufacturers but also for consumers who rely on the integrity of products in their daily lives.When we talk about the degree of size breakage in materials, we are essentially discussing how much a material has lost its original form. For instance, consider a glass object that falls from a height. The impact will cause it to shatter, and the degree of size breakage can be assessed by examining the size and number of fragments produced. A higher degree indicates more extensive breakage, resulting in smaller pieces, while a lower degree suggests that the material remains largely intact.This concept becomes particularly relevant in industries such as construction, where the integrity of materials like concrete and steel is paramount. Engineers must evaluate the degree of size breakage when assessing the safety and stability of structures. If the materials used in construction have a high degree of size breakage, it could compromise the strength of the building, leading to potential hazards.Moreover, the degree of size breakage can also impact the performance of materials in various applications. For example, in the field of pharmaceuticals, the size of particles in a drug formulation can influence its absorption rate in the body. A drug with a high degree of size breakage may dissolve more quickly, potentially leading to faster therapeutic effects. Conversely, if the particles are too small, they may aggregate and reduce the efficacy of the medication.In addition to practical implications, the degree of size breakage can also serve as an indicator of material fatigue and failure. By monitoring changes in size and structure over time, engineers can predict when a material is likely to fail, allowing for proactive measures to be taken. This predictive maintenance is essential in industries such as aerospace and automotive, where safety is non-negotiable.Furthermore, understanding the degree of size breakage can also lead to innovations in recycling and waste management. By analyzing how materials break down, companies can develop better processes for reusing and repurposing materials, ultimately contributing to sustainability efforts. For instance, in the recycling of plastics, knowing the degree of size breakage helps determine the feasibility of reprocessing materials into new products.In conclusion, the degree of size breakage is a multifaceted concept that plays a vital role in various fields, from engineering to healthcare and environmental sustainability. By comprehensively understanding this term, professionals can make informed decisions that enhance product quality, ensure safety, and promote responsible resource management. As we continue to advance technologically and strive for sustainability, appreciating the nuances of the degree of size breakage will undoubtedly remain crucial for innovation and progress.

在制造和材料科学领域，理解材料的性质对于确保质量和耐用性至关重要。其中一个重要方面是尺寸破碎程度，它指的是由于各种因素（如应力、冲击或环境条件）导致材料被破碎或减小的程度。这个概念不仅对工程师和制造商重要，也对依赖产品完整性的消费者至关重要。当我们谈论材料的尺寸破碎程度时，我们实际上是在讨论材料失去原始形状的程度。例如，考虑一个从高处掉落的玻璃物体。冲击会导致它破碎，尺寸破碎程度可以通过检查产生的碎片的大小和数量来评估。更高的程度表示更广泛的破碎，导致较小的碎片，而较低的程度则表明材料基本保持完好。这个概念在建筑等行业变得尤为重要，在这些行业中，混凝土和钢铁等材料的完整性至关重要。工程师在评估结构的安全性和稳定性时，必须评估尺寸破碎程度。如果用于建筑的材料具有高的尺寸破碎程度，可能会危及建筑的强度，导致潜在的危险。此外，尺寸破碎程度还会影响材料在各种应用中的性能。例如，在制药领域，药物配方中颗粒的大小会影响其在体内的吸收速率。具有高尺寸破碎程度的药物可能会更快溶解，从而导致更快的治疗效果。相反，如果颗粒过小，可能会聚集并降低药物的有效性。除了实际影响外，尺寸破碎程度还可以作为材料疲劳和失效的指示器。通过监测随时间变化的大小和结构，工程师可以预测材料何时可能失效，从而采取主动措施。这种预测性维护在航空航天和汽车等行业中至关重要，因为安全是不可妥协的。此外，理解尺寸破碎程度还可以促进回收和废物管理方面的创新。通过分析材料如何分解，公司可以开发出更好的再利用和再加工材料的流程，从而最终有助于可持续发展。例如，在塑料回收中，了解尺寸破碎程度有助于确定将材料再加工成新产品的可行性。总之，尺寸破碎程度是一个多方面的概念，在工程、医疗保健和环境可持续性等多个领域发挥着至关重要的作用。通过全面理解这一术语，专业人士可以做出明智的决策，从而提高产品质量、确保安全并促进负责任的资源管理。随着技术的不断进步和对可持续发展的追求，欣赏尺寸破碎程度的细微差别无疑将继续对创新和进步至关重要。