grain composition
简明释义
粒度组成
英英释义
例句
1.Different types of rice have varying grain composition, affecting their cooking properties.
不同类型的大米有不同的纹理成分,影响其烹饪特性。
2.For optimal flavor, the chef paid attention to the grain composition of the spices used.
为了获得最佳风味,厨师注意了所用香料的纹理成分。
3.The architect specified the grain composition of the wood to ensure durability in the construction.
建筑师指定了木材的纹理成分以确保建筑的耐久性。
4.Understanding the grain composition of the soil is crucial for successful agriculture.
了解土壤的纹理成分对于成功的农业至关重要。
5.The grain composition of the metal determines its strength and flexibility.
金属的纹理成分决定了其强度和柔韧性。
作文
Understanding the concept of grain composition is crucial in various fields, particularly in agriculture, food science, and material engineering. The term grain composition refers to the specific proportions and types of grains present in a mixture or a product. This can include everything from the types of cereal grains used in a specific recipe to the mineral content in a construction material. By analyzing the grain composition, scientists and engineers can determine the quality, nutritional value, and functionality of the product in question. For instance, in the context of food production, the grain composition of a flour blend can significantly affect the texture, flavor, and nutritional profile of baked goods. Different grains, such as wheat, rye, barley, and oats, each possess unique properties that contribute to the overall characteristics of the final product. Therefore, understanding the grain composition allows bakers to create recipes that meet specific dietary needs or preferences, such as gluten-free or high-fiber options.In agriculture, assessing the grain composition of soil is essential for improving crop yields. Soil scientists analyze the grain composition to understand the soil's nutrient content and structure. The presence of different grain sizes and types can influence water retention, drainage, and the availability of essential minerals for plant growth. By optimizing the grain composition of soil through amendments and proper management techniques, farmers can enhance their productivity and sustainability.Moreover, in the field of material engineering, the grain composition of metals and alloys plays a critical role in determining their mechanical properties. Engineers study the grain composition to ensure that materials meet specific performance criteria for their intended applications. For example, a material with a fine grain composition may exhibit greater strength and ductility compared to one with a coarse grain composition. Understanding these relationships enables engineers to design materials that are not only strong but also lightweight, which is vital in industries such as aerospace and automotive manufacturing.In conclusion, the significance of grain composition extends across multiple disciplines, highlighting its relevance in everyday life. Whether it is in the foods we consume, the soils that grow our crops, or the materials that construct our buildings, understanding grain composition provides valuable insights into the quality and performance of various products. As we continue to advance in technology and science, the ability to analyze and manipulate grain composition will remain a key factor in innovation and sustainability. Thus, embracing this concept can lead to better practices in agriculture, food production, and material engineering, ultimately benefiting society as a whole.
理解grain composition(谷物成分)这一概念在农业、食品科学和材料工程等多个领域至关重要。grain composition(谷物成分)一词指的是混合物或产品中存在的谷物的特定比例和类型。这可以包括从特定食谱中使用的谷物类型到建筑材料中的矿物含量。通过分析grain composition(谷物成分),科学家和工程师可以确定所研究产品的质量、营养价值和功能性。例如,在食品生产的背景下,面粉混合物的grain composition(谷物成分)可以显著影响烘焙食品的质地、风味和营养成分。不同的谷物,如小麦、黑麦、大麦和燕麦,各自具有独特的特性,这些特性会影响最终产品的整体特征。因此,理解grain composition(谷物成分)使得面包师能够创建满足特定饮食需求或偏好的食谱,如无麸质或高纤维选项。在农业中,评估土壤的grain composition(谷物成分)对于提高作物产量至关重要。土壤科学家分析grain composition(谷物成分)以了解土壤的营养成分和结构。不同粒径和类型的谷物的存在可以影响水分保持、排水以及植物生长所需的基本矿物质的可用性。通过通过添加剂和适当的管理技术优化土壤的grain composition(谷物成分),农民可以增强他们的生产力和可持续性。此外,在材料工程领域,金属和合金的grain composition(谷物成分)对其机械性能起着关键作用。工程师研究grain composition(谷物成分),以确保材料符合其预期应用的特定性能标准。例如,具有细粒grain composition(谷物成分)的材料可能表现出比具有粗粒grain composition(谷物成分)的材料更大的强度和延展性。理解这些关系使工程师能够设计出不仅强大而且轻便的材料,这在航空航天和汽车制造等行业中至关重要。总之,grain composition(谷物成分)的重要性跨越多个学科,突显了其在日常生活中的相关性。无论是在我们消费的食物中、种植作物的土壤中,还是构建我们建筑物的材料中,理解grain composition(谷物成分)提供了对各种产品质量和性能的宝贵洞察。随着我们在技术和科学方面的不断进步,分析和操控grain composition(谷物成分)的能力将仍然是创新和可持续发展的关键因素。因此,接受这一概念可以在农业、食品生产和材料工程中带来更好的实践,最终使整个社会受益。
