manual proportioning control

简明释义

手工称量控制

英英释义

例句

1.In construction, manual proportioning control 手动配比控制 is essential for mixing concrete correctly.

在建筑中，手动配比控制 manual proportioning control 对于正确混合混凝土至关重要。

2.The chef prefers manual proportioning control 手动配比控制 when mixing ingredients for his signature sauce.

这位厨师在调配他招牌酱汁的成分时，喜欢使用手动配比控制 manual proportioning control。

3.During the experiment, we relied on manual proportioning control 手动配比控制 to adjust the ratios of different solutions.

在实验过程中，我们依靠手动配比控制 manual proportioning control 来调整不同溶液的比例。

4.In the laboratory, we use manual proportioning control 手动配比控制 to ensure accurate measurements of chemicals.

在实验室中，我们使用手动配比控制 manual proportioning control 来确保化学品的准确测量。

5.The artist uses manual proportioning control 手动配比控制 to mix paints to achieve the desired color.

这位艺术家使用手动配比控制 manual proportioning control 来混合颜料，以达到所需的颜色。

作文

In the world of engineering and manufacturing, precision is key to achieving desired results. One method that has been widely used in various industries is known as manual proportioning control. This technique involves the careful measurement and mixing of different components in specific ratios to achieve a consistent and high-quality product. While automation has taken over many processes in modern factories, manual proportioning control remains relevant, especially in situations where flexibility and customization are required.The concept of manual proportioning control can be traced back to traditional practices where artisans would mix materials by hand to create unique products. For example, in the production of paints, dyes, or even food ingredients, the ability to adjust the proportions of each component allows for a level of creativity and adaptability that automated systems may not provide. This hands-on approach ensures that the final product meets specific customer requirements, which is often crucial in niche markets.One of the primary benefits of manual proportioning control is the ability to make real-time adjustments. In a dynamic production environment, conditions can change rapidly, and having the skill to modify the proportions of materials can lead to better outcomes. For instance, if a particular batch of raw materials does not meet the expected quality standards, an operator can immediately alter the proportions being used to compensate for this deficiency. This level of responsiveness is difficult to achieve with automated systems, which typically rely on pre-set parameters that may not account for variations in material quality.Moreover, manual proportioning control encourages a deeper understanding of the materials involved in the production process. Operators who engage in this method often develop a keen sense of how different components interact with one another, leading to improved product formulation over time. This knowledge can be invaluable, as it empowers workers to innovate and refine processes, ultimately resulting in higher quality products.However, it is essential to acknowledge the challenges associated with manual proportioning control. The reliance on human skill and judgment means that there is a greater potential for error compared to automated systems. Even experienced operators can make mistakes, leading to inconsistencies in product quality. To mitigate these risks, companies often implement training programs and standard operating procedures to guide workers in effectively using this method.In conclusion, manual proportioning control plays a vital role in various industries by allowing for flexibility, real-time adjustments, and a deeper understanding of materials. While automation continues to advance, the importance of skilled human operators cannot be overlooked. Their ability to finely tune proportions and adapt to changing conditions ensures that businesses can maintain high standards of quality and meet the diverse needs of their customers. As industries evolve, finding the right balance between manual techniques and automated processes will be crucial for future success.

手动配比控制在工程和制造领域，精确性是实现所需结果的关键。这个方法在各个行业中被广泛使用，称为手动配比控制。这种技术涉及对不同成分进行仔细测量和混合，以特定比例达到一致且高质量的产品。虽然自动化在现代工厂中接管了许多过程，但手动配比控制仍然相关，尤其是在需要灵活性和定制的情况下。手动配比控制的概念可以追溯到传统实践，当时工匠会手工混合材料以创造独特的产品。例如，在涂料、染料或甚至食品成分的生产中，能够调整每种成分的比例允许在自动系统可能无法提供的创造性和适应性。这种动手的方法确保最终产品符合特定客户要求，这在小众市场中往往至关重要。手动配比控制的主要优点之一是能够实时调整。在动态生产环境中，条件可能迅速变化，拥有调整材料比例的技能可以导致更好的结果。例如，如果某一批原材料未达到预期的质量标准，操作员可以立即改变所用比例来弥补这一不足。这种响应能力是自动系统难以实现的，因为它们通常依赖于预设参数，而这些参数可能无法考虑材料质量的变化。此外，手动配比控制鼓励对生产过程中涉及的材料有更深入的理解。参与此方法的操作员通常会逐渐形成对不同成分相互作用的敏锐感知，从而随着时间的推移改善产品配方。这种知识是无价的，因为它使工人能够创新和完善流程，最终导致更高质量的产品。然而，必须承认与手动配比控制相关的挑战。对人类技能和判断的依赖意味着与自动系统相比，出错的潜在可能性更大。即使是经验丰富的操作员也可能犯错误，从而导致产品质量的不一致。为了减少这些风险，公司通常会实施培训计划和标准操作程序，以指导工人有效地使用这种方法。总之，手动配比控制通过允许灵活性、实时调整和对材料的深入理解，在各个行业中发挥着重要作用。尽管自动化继续发展，但熟练的人工操作员的重要性不可忽视。他们微调比例和适应变化条件的能力确保企业能够维持高标准的质量，并满足客户的多样化需求。随着行业的发展，在手动技术与自动化过程之间找到正确的平衡将对未来的成功至关重要。