viscometry
简明释义
英[ˌvɪsˈkɒmətri]美[ˌvɪsˈkɒmətri]
n. [物] 粘度测定法
英英释义
Viscometry is the measurement of the viscosity of a fluid, which quantifies its resistance to flow. | 粘度测量是对流体粘度的测量,量化其流动阻力。 |
单词用法
同义词
反义词
| 流动性 | 材料的流动性影响其加工。 | ||
| 液态性 | 溶液中的高液态性可以导致更好的混合。 |
例句
1.In this paper, FDNB method, UV-spectrophotometry, Formaldehyde reaction-titration method and Viscometry were tried to use in measuring the gelatin hydrolysis degree in the process of the reaction.
本文探讨了FDNB、紫外分光光度法、甲醛反应滴定法、粘度法测定明胶水解程度的可能性,并对他们作了一定的研究。
2.The molecular interactions in CC were characterised by dilute solution viscometry, Fourier transform infrared spectroscopy and X-ray diffraction.
文中通过稀溶液黏度法、红外和X射线衍射法对胶原与壳聚糖分子间作用力进行了表征。
3.The measurement on average degree of polymerization in insulation paper with viscometry is introduced, and some testing results are analysed.
对用粘度法测定绝缘纸的平均聚合度做了简要介绍,并对试验结果进行了分析。
4.In this paper, FDNB method, UV-spectrophotometry, Formaldehyde reaction-titration method and Viscometry were tried to use in measuring the gelatin hydrolysis degree in the process of the reaction.
本文探讨了FDNB、紫外分光光度法、甲醛反应滴定法、粘度法测定明胶水解程度的可能性,并对他们作了一定的研究。
5.The relative molecular weight is 852 by using viscometry, its relative density is 1.
采用黏度法测定膦基聚马来酸的相对分子质量为852、相对密度为1。
6.Use viscometry to determine viscosity-average molecular weight of oxidated polyethylene wax and introduce the measurement, process and effect factors in detail.
用粘度法测定氧化聚乙烯蜡的粘均分子量。对测定方法、步骤及影响因素做了详细介绍。
7.The viscosity average molecular weighs of several different CPPs were determined by dilute solution viscometry and the intrinsic viscosity was related to the viscosity of industry concentration.
用稀溶液粘度法测定了几种不同氯化聚丙烯粘均分子量,并且将稀溶液测定的特性粘数与一般工业使用浓度的粘度联系起来。
8.Method: The electricity, rheology and coalescence kinetics of oral harmine emulsion were determined by electrophoresis, viscometry and conductometry respectively.
方法:分别采用界面电泳法、旋转式粘度计、电导法等方法,测定口服乳剂的电学、流变学、凝聚动力学等物理性质。
9.In food production, viscometry is essential for ensuring the right texture and consistency of sauces.
在食品生产中,粘度测量法对于确保酱料的正确质地和一致性至关重要。
10.Researchers used viscometry to analyze the behavior of polymers in different solvents.
研究人员使用粘度测量法分析了聚合物在不同溶剂中的行为。
11.The lab conducted a series of tests using viscometry to determine the viscosity of various fluids.
实验室进行了系列测试,使用粘度测量法来确定各种液体的粘度。
12.The viscometry results indicated that the new formula had improved flow properties.
该粘度测量法结果表明,新配方的流动性得到了改善。
13.Accurate viscometry is crucial in the paint industry to ensure proper application.
准确的粘度测量法在涂料行业中至关重要,以确保适当的涂抹效果。
作文
Viscometry is a branch of science that deals with the measurement of the viscosity of fluids. Viscosity is a crucial property that describes a fluid's resistance to flow, which plays an essential role in various industries such as food, pharmaceuticals, and petrochemicals. The importance of viscometry (粘度测量) cannot be overstated, as it helps in determining how fluids behave under different conditions, which can affect product quality and performance.In the food industry, for instance, the viscosity of sauces, dressings, and other products directly impacts their texture and mouthfeel. Manufacturers often rely on viscometry (粘度测量) to ensure consistency in their products. If a sauce is too runny or too thick, it can lead to consumer dissatisfaction. Therefore, by measuring the viscosity, food scientists can adjust formulations to achieve the desired texture, ensuring that the product meets consumer expectations.Similarly, in the pharmaceutical industry, the viscosity of liquid medications is critical. A medication that is too viscous may not be able to be administered easily, while one that is too thin may not stay effective in the body. Through viscometry (粘度测量), pharmaceutical companies can optimize the formulation of syrups, suspensions, and emulsions to ensure proper dosing and efficacy. This not only enhances patient compliance but also ensures that the medication delivers its intended therapeutic effect.Moreover, in the petrochemical industry, the viscosity of crude oil and its derivatives influences how they are transported and processed. High-viscosity oils require more energy to pump through pipelines, leading to increased operational costs. By employing viscometry (粘度测量) techniques, engineers can assess the viscosity of different oil samples, allowing them to devise strategies for effective transport and refining processes. This is particularly important in optimizing the extraction and delivery of fuels, which are vital to global energy needs.There are various methods used in viscometry (粘度测量), including rotational viscometers, capillary viscometers, and falling ball viscometers. Each method has its advantages and applications depending on the type of fluid being measured and the required precision. For example, rotational viscometers are widely used in industrial applications due to their ability to measure a wide range of viscosities quickly and accurately. On the other hand, capillary viscometers are often used for low-viscosity fluids and are favored in laboratory settings for their precision.In conclusion, viscometry (粘度测量) is an indispensable tool across various sectors, providing critical data that informs product development, quality control, and process optimization. As industries continue to evolve and innovate, the role of viscometry (粘度测量) will only grow in significance, enabling scientists and engineers to better understand fluid behavior and improve the quality of products that we use every day. Understanding and applying the principles of viscometry (粘度测量) can lead to advancements in technology and improvements in our daily lives, making it a field worth exploring further.
粘度测量是一个科学领域,专注于流体粘度的测量。粘度是描述流体流动阻力的关键属性,在食品、制药和石油化工等多个行业中发挥着重要作用。viscometry(粘度测量)的重要性不容小觑,因为它有助于确定流体在不同条件下的行为,这可能影响产品质量和性能。例如,在食品工业中,酱料、调味品和其他产品的粘度直接影响其质地和口感。制造商通常依赖于viscometry(粘度测量)来确保产品的一致性。如果酱汁太稀或太厚,可能会导致消费者的不满。因此,通过测量粘度,食品科学家可以调整配方,以达到期望的质地,确保产品符合消费者的期望。同样,在制药行业,液体药物的粘度至关重要。粘度过高的药物可能难以轻易给药,而粘度过低的药物可能无法在体内有效保持。通过viscometry(粘度测量),制药公司可以优化糖浆、悬浮液和乳剂的配方,以确保适当的剂量和疗效。这不仅提高了患者的依从性,还确保药物能够发挥其预期的治疗效果。此外,在石油化工行业,原油及其衍生物的粘度影响其运输和加工方式。高粘度的石油需要更多的能量通过管道输送,导致运营成本增加。通过采用viscometry(粘度测量)技术,工程师可以评估不同油样的粘度,从而制定有效的运输和精炼过程的策略。这在优化燃料的提取和交付方面尤为重要,而燃料对全球能源需求至关重要。在viscometry(粘度测量)中,有多种方法可供使用,包括旋转粘度计、毛细管粘度计和落球粘度计。每种方法都有其优势和应用,具体取决于被测流体的类型和所需的精确度。例如,旋转粘度计因其能够快速准确地测量广泛的粘度范围而广泛用于工业应用。另一方面,毛细管粘度计通常用于低粘度流体,并因其精确性而在实验室环境中受到青睐。总之,viscometry(粘度测量)是各个行业不可或缺的工具,提供关键数据以指导产品开发、质量控制和流程优化。随着行业的不断发展和创新,viscometry(粘度测量)的作用只会越来越重要,使科学家和工程师能够更好地理解流体行为,并改善我们日常使用的产品的质量。理解和应用viscometry(粘度测量)的原理可以促进技术进步,并改善我们的日常生活,使其成为一个值得进一步探索的领域。
