phosphatization

简明释义

英[ˌfɑːsfəˈtaɪzeɪʃən]美[ˌfɑːsfəˈtaɪzeɪʃən]

n. 磷化；磷酸盐化

英英释义

单词用法

同义词

反义词

例句

1.Experiments were made to determine about technological process of chemical pretreatment, phosphatization liquid and technical condition.

通过优化实验，确定了化学预处理的工艺流程、磷化液组成及工艺条件。

2.Experiments were made to determine about technological process of chemical pretreatment, phosphatization liquid and technical condition.

通过优化实验，确定了化学预处理的工艺流程、磷化液组成及工艺条件。

3.The normal temperature phosphatization is the most advanced technology that is actively researched currently.

常温磷化是当前研究最活跃，技术进步最快的磷化技术。

4.The said liquid consists of blackening liquid and phosphatization liquid.

其由黑化液和磷化液两部分组成。

5.The process of phosphatization is crucial for the formation of certain sedimentary rocks.

磷酸化过程对于某些沉积岩的形成至关重要。

6.In agriculture, phosphatization can enhance soil fertility by increasing phosphorus availability.

在农业中，磷酸化可以通过增加磷的可用性来提高土壤肥力。

7.Researchers are studying the phosphatization process to understand ancient marine environments.

研究人员正在研究磷酸化过程，以了解古代海洋环境。

8.The phosphatization of organic materials can lead to the preservation of fossils.

磷酸化有机材料可以导致化石的保存。

9.Understanding phosphatization helps geologists interpret the geological history of an area.

理解磷酸化有助于地质学家解读一个地区的地质历史。

作文

Phosphatization is a geological process that plays a significant role in the formation of phosphate minerals. This process involves the conversion of organic matter into phosphate-rich materials, which can then contribute to the development of various sedimentary rocks. Understanding the mechanism of phosphatization (磷酸化) is essential for geologists and paleontologists alike, as it provides insights into ancient ecosystems and the cycling of nutrients through different geological periods. The process of phosphatization (磷酸化) typically begins with the accumulation of organic material, such as the remains of plants and animals. Over time, these organic remains are buried under layers of sediment, where they undergo diagenesis—a series of physical and chemical changes that occur after deposition. During diagenesis, the organic matter can interact with phosphate ions present in the surrounding sediments, leading to the formation of phosphate minerals. One of the critical factors influencing phosphatization (磷酸化) is the availability of phosphorus in the environment. Phosphorus is an essential nutrient for all living organisms, and its presence in sediments can significantly impact the rate of phosphatization (磷酸化). In marine environments, for example, the decomposition of organic matter by bacteria can release phosphorus, which can then react with calcium ions to form apatite, a common phosphate mineral. The study of phosphatization (磷酸化) is not only important for understanding mineral formation but also for reconstructing past ecological conditions. Fossils that have undergone phosphatization (磷酸化) often preserve fine details that can provide valuable information about the organisms' morphology and behavior. For instance, fossilized bones and teeth that have been subjected to phosphatization (磷酸化) retain their structural integrity much better than those that have not, allowing paleontologists to study them in greater detail. Moreover, phosphatization (磷酸化) can also influence the global phosphorus cycle. Phosphorus is a limiting nutrient in many ecosystems, and its availability can affect primary productivity. By understanding how phosphatization (磷酸化) contributes to the concentration of phosphorus in sediments, scientists can gain insights into how nutrient cycles have changed over geological time. In conclusion, phosphatization (磷酸化) is a crucial geological process that has far-reaching implications for our understanding of both ancient life and modern ecosystems. As researchers continue to explore the intricacies of this process, they uncover new information about the interactions between organic matter and minerals, the preservation of fossils, and the dynamics of nutrient cycling. The significance of phosphatization (磷酸化) extends beyond geology, touching on ecology, paleontology, and environmental science, making it a fascinating subject for interdisciplinary study.