multielement
简明释义
英[ˌmʌltɪˈelɪmənt]美[ˌmʌltɪˈelɪmənt]
adj. 多元素的,多元件的
英英释义
单词用法
多元素检测 | |
多元素测量 | |
多元素方法 | |
多元素数据 | |
多元素取样 | |
多元素技术 |
同义词
| 多组分 | 对该多组分系统的效率进行了分析。 | ||
| 多方面的 | The project has a multi-faceted approach to problem-solving. | 该项目采用了多方面的问题解决方法。 | |
| 多成分的 | This recipe requires a multi-ingredient mix to enhance flavor. | 这个食谱需要多成分的混合以增强风味。 |
反义词
| 单一元素 | A single-element system is easier to analyze than a multielement one. | 单一元素系统比多元素系统更容易分析。 | |
| 单元素 | 单元素方法简化了整体设计。 |
例句
1.A mathematical model of multielement decision and decision method are proposed for creating building light environments.
提出了建筑光环境创造的多元决策数学模型和决策方法。
2.They are one guiding side with multielement existing side by side, fusion theory, culture philosophy and world philosophy.
关于新世纪哲学的形态,主要有一方主导多元并存、融合说、文化哲学、世界哲学等四种观点;
3.The paper deals with the influence of RE and Al Complex metamorphosis on the wear resistant with cast iron which contains tiny multielement and low Cr.
研究了稀土、铝复合变质处理对微量、多元低路白口耐磨铸铁组织和性能的影响。
4.In general, multielement least upper bounds may contain much redundancy, which will increase the expression complexity of the least upper approximation of a concept.
多元最小上界通常会存在大量的冗余,从而增加概念最小上近似表达式的复杂性。
5.The present situation of the mining city of our country, concrete thought of multielement industry and selection principle of leading industry a...
文中探讨了我国矿业城市产业现状及成因、产业多元化的具体思路及主导产业的选择原则,为矿业城市产业转型提供了理论依据。
6.Society is multielement which cannot be build by one subject talents.
社会是多元的,不是由一个专业领域的人才建设起来的。
7.The finite volume method is adopted on each layer. The high efficiency of this multigrid algorithm has been verified by calculating flows around a multielement airfoil.
采用四重网格,在每一层网格上采用有限体积法进行计算。
8.The multielement interrelated detection technique is of maximum detection sensitivity and minimum false alarm rate by the correlation function.
多元相关探测技术在具有很好的探测灵敏度的同时,兼顾保证了极低的虚警率。
9.We also define the simplified multielement least upper bounds and provide effective algorithm to find them last.
为此给出概念的最简多元最小上界的定义,并提供了寻找最简多元最小上界的有效算法。
10.Our laboratory specializes in multielement 多元素 testing for food safety.
我们的实验室专门进行食品安全的多元素测试。
11.The multielement 多元素 approach allows us to evaluate multiple factors simultaneously.
这种多元素方法使我们能够同时评估多个因素。
12.The new software is designed to analyze multielement 多元素 data from various sources.
这款新软件旨在分析来自多个来源的多元素数据。
13.In chemistry, a multielement 多元素 analysis can provide insights into the composition of a sample.
在化学中,多元素分析可以提供关于样品成分的深刻见解。
14.The environmental study focused on multielement 多元素 contamination in soil and water.
这项环境研究集中于土壤和水中的多元素污染。
作文
In the realm of science and technology, the term multielement (多元素) has gained significant importance, especially in fields such as chemistry, materials science, and environmental studies. Understanding the concept of multielement systems can provide valuable insights into complex interactions that occur within various substances. This essay will explore the significance of multielement analysis, its applications, and its implications for future research and development.Firstly, let us define what a multielement system entails. A multielement system consists of multiple elements that interact with one another, creating a diverse range of properties and behaviors. For instance, in alloy production, different metals are combined to produce a material that possesses unique characteristics not found in any single component. This is particularly relevant in industries such as aerospace and automotive manufacturing, where the strength-to-weight ratio is critical. The ability to engineer multielement alloys allows manufacturers to create lighter yet stronger materials, enhancing performance and efficiency.Moreover, multielement analysis is crucial in environmental science. Contaminants often exist as a mixture of various elements, and understanding their interactions is essential for effective remediation strategies. For example, heavy metals like lead, cadmium, and mercury frequently coexist in polluted environments. By employing multielement analytical techniques, scientists can assess the concentration and behavior of these elements, leading to more informed decisions regarding environmental cleanup efforts.The application of multielement methodologies extends beyond just material science and environmental studies. In the field of medicine, for instance, multielement analysis plays a pivotal role in diagnosing and monitoring health conditions. Blood tests often measure the levels of multiple elements, such as electrolytes, minerals, and trace elements, to provide a comprehensive overview of an individual's health. This holistic approach enables healthcare professionals to identify potential deficiencies or toxicities, ultimately guiding treatment plans.Furthermore, the advancement of technology has significantly enhanced our ability to conduct multielement analyses. Techniques such as mass spectrometry and atomic absorption spectroscopy allow for the simultaneous detection of multiple elements with high precision and accuracy. These technological improvements have not only accelerated research but have also expanded the range of applications for multielement studies, from forensic science to food safety.However, the challenges associated with multielement analysis should not be overlooked. The complexity of interpreting data from multielement systems can lead to difficulties in establishing clear cause-and-effect relationships. Additionally, the presence of interfering substances may complicate the analysis, requiring careful calibration and validation of methods. Therefore, ongoing research is necessary to refine analytical techniques and improve our understanding of multielement interactions.In conclusion, the concept of multielement (多元素) systems is integral to various scientific disciplines, offering insights that are essential for innovation and problem-solving. As we continue to explore the intricate relationships between multiple elements, the potential for new discoveries and advancements remains vast. Whether in developing advanced materials, addressing environmental challenges, or improving healthcare outcomes, the significance of multielement analysis cannot be overstated. Embracing this complexity will undoubtedly pave the way for future breakthroughs that benefit society as a whole.
在科学和技术领域,术语multielement(多元素)变得越来越重要,尤其是在化学、材料科学和环境研究等领域。理解multielement系统的概念可以为我们提供关于各种物质内复杂相互作用的宝贵见解。本文将探讨multielement分析的重要性、其应用以及对未来研究和发展的影响。首先,让我们定义一下multielement系统的含义。multielement系统由多个元素组成,这些元素彼此相互作用,创造出多种性质和行为。例如,在合金生产中,不同的金属被结合在一起,以产生一种独特的材料,其特性在任何单一成分中都找不到。这在航空航天和汽车制造等行业中尤其相关,因为强度与重量比至关重要。工程化multielement合金的能力使制造商能够创造出更轻但更强的材料,从而提高性能和效率。此外,multielement分析在环境科学中至关重要。污染物通常以多种元素的混合形式存在,理解它们的相互作用对于有效的修复策略至关重要。例如,铅、镉和汞等重金属经常在污染环境中共存。通过采用multielement分析技术,科学家可以评估这些元素的浓度和行为,从而做出更明智的环境清理决策。multielement方法的应用不仅限于材料科学和环境研究。在医学领域,例如,multielement分析在诊断和监测健康状况中发挥着关键作用。血液测试通常测量多种元素的水平,如电解质、矿物质和微量元素,以提供个体健康的全面概述。这种整体方法使医疗专业人员能够识别潜在的缺乏或毒性,从而指导治疗计划。此外,技术的进步显著增强了我们进行multielement分析的能力。质谱和原子吸收光谱等技术允许同时高精度和高准确度地检测多种元素。这些技术改进不仅加快了研究进程,还扩展了multielement研究的应用范围,从法医学到食品安全。然而,与multielement分析相关的挑战不容忽视。解释multielement系统数据的复杂性可能导致建立明确因果关系的困难。此外,干扰物质的存在可能使分析复杂化,需要仔细校准和验证方法。因此,持续的研究是必要的,以完善分析技术并改善我们对multielement相互作用的理解。总之,multielement(多元素)系统的概念对于各个科学学科至关重要,为创新和解决问题提供了必要的见解。随着我们继续探索多个元素之间的复杂关系,新的发现和进展的潜力依然广阔。无论是在开发先进材料、应对环境挑战还是改善医疗结果方面,multielement分析的重要性都不容小觑。拥抱这种复杂性无疑将为未来的突破铺平道路,造福整个社会。
