solidifiable

简明释义

英[sɒlɪdəˈfaɪəbl]美[sɒlɪdəˈfaɪəbl]

可凝固的

英英释义

单词用法

同义词

反义词

例句

1.The implementation of hot work for station crude oil pipeline must be in accordance with the standard of SY5859-93 because the media transported are solidifiable, inflammable, and explosive.

根据输油生产的连续性特点以及输送介质具有易凝、易燃、易爆的性质，站内原油管道施工动火必须严格遵循SY5859—93《石油工业企业动火安全规程》。

2.The implementation of hot work for station crude oil pipeline must be in accordance with the standard of SY5859-93 because the media transported are solidifiable, inflammable, and explosive.

根据输油生产的连续性特点以及输送介质具有易凝、易燃、易爆的性质，站内原油管道施工动火必须严格遵循SY5859—93《石油工业企业动火安全规程》。

3.In construction, using solidifiable materials can significantly reduce the time needed for a project.

在建筑中，使用固化材料可以显著减少项目所需的时间。

4.The artist prefers paints that are solidifiable to create texture in her work.

这位艺术家更喜欢使用固化的颜料来为她的作品创造质感。

5.The invention of solidifiable adhesives has transformed the manufacturing industry.

可固化的粘合剂的发明改变了制造业。

6.Researchers are exploring solidifiable substances that can be used in 3D printing technology.

研究人员正在探索可用于3D打印技术的固化物质。

7.The new polymer is designed to be solidifiable, allowing it to harden quickly after application.

这种新型聚合物旨在具有固化能力，允许其在施用后迅速硬化。

作文

In the realm of materials science, the term solidifiable refers to the ability of a substance to transition from a liquid or semi-liquid state into a solid form. This transformation is crucial in various applications, particularly in construction, manufacturing, and even in culinary arts. Understanding how different materials behave when subjected to changes in temperature and pressure can lead to innovative solutions and improved products. For instance, in the construction industry, concrete is a prime example of a solidifiable material. When mixed with water, cement, and aggregates, it begins as a fluid mixture that can be molded into various shapes. As it cures, the chemical reactions within the mixture cause it to harden and become a durable solid. This process is not only essential for building infrastructure but also highlights the significance of solidifiable materials in creating long-lasting structures.Moreover, the concept of solidifiable extends beyond traditional materials. In the field of food science, certain gels and emulsions exhibit solidifiable properties. For example, gelatin can be dissolved in hot water and then cooled to form a solid dessert. This phenomenon is not merely a culinary trick; it illustrates the fundamental principles of phase transitions and molecular interactions. Chefs often experiment with these solidifiable substances to create unique textures and presentations in their dishes, showcasing the intersection of art and science in cooking.The ability to manipulate solidifiable materials has also paved the way for advancements in technology. In 3D printing, for instance, thermoplastics are heated until they become liquid and then extruded layer by layer to create solid objects. The solidifiable nature of these materials allows for intricate designs and rapid prototyping, revolutionizing the manufacturing process across various industries. This technology exemplifies how understanding the properties of solidifiable materials can lead to significant innovations.Furthermore, the environmental implications of solidifiable materials cannot be overlooked. As industries strive for sustainability, the development of biodegradable and eco-friendly solidifiable materials has gained traction. For example, researchers are exploring plant-based polymers that can solidify and decompose naturally, reducing waste and the impact on our planet. This shift towards more sustainable practices highlights the importance of ongoing research and development in the field of materials science.In conclusion, the term solidifiable encompasses a wide range of applications and implications across various fields. From construction to culinary arts, and from technology to environmental sustainability, the ability to understand and manipulate solidifiable materials is essential for innovation and progress. As we continue to explore the potential of these materials, we unlock new possibilities that can enhance our lives and address global challenges. The journey of discovery in the world of solidifiable substances is just beginning, and it promises to be an exciting frontier for future generations.

在材料科学领域，术语solidifiable指的是一种物质从液体或半液体状态转变为固态的能力。这种转变在建筑、制造甚至烹饪艺术等各种应用中至关重要。了解不同材料在温度和压力变化下的行为可以带来创新解决方案和改进产品。例如，在建筑行业，混凝土是一个典型的solidifiable材料。当与水、水泥和骨料混合时，它开始作为一种流体混合物，可以被模制成各种形状。随着其固化，混合物内的化学反应使其硬化并成为耐用的固体。这一过程不仅对基础设施建设至关重要，而且突显了solidifiable材料在创建持久结构方面的重要性。此外，solidifiable的概念超越了传统材料。在食品科学领域，某些凝胶和乳液表现出solidifiable特性。例如，明胶可以溶解在热水中，然后冷却形成固体甜点。这一现象不仅仅是一种烹饪技巧；它说明了相变和分子相互作用的基本原理。厨师们常常利用这些solidifiable物质进行实验，以在菜肴中创造独特的质地和呈现方式，展示了烹饪艺术与科学的交汇。操控solidifiable材料的能力也为技术进步铺平了道路。在3D打印中，例如，热塑性塑料被加热到液态，然后逐层挤出以创建固体物体。这些材料的solidifiable特性允许复杂的设计和快速原型制作，彻底改变了各个行业的制造过程。这项技术例证了理解solidifiable材料特性的价值如何导致重大创新。此外，solidifiable材料的环境影响也不容忽视。随着各行业努力实现可持续发展，生物可降解和环保的solidifiable材料的开发受到关注。例如，研究人员正在探索植物基聚合物，这些聚合物可以固化并自然分解，从而减少废物及其对我们星球的影响。这种向更可持续实践的转变突显了材料科学领域持续研究和发展的重要性。总之，术语solidifiable涵盖了各个领域广泛的应用和影响。从建筑到烹饪艺术，从技术到环境可持续性，理解和操控solidifiable材料的能力对于创新和进步至关重要。随着我们继续探索这些材料的潜力，我们开启了新的可能性，可以改善我们的生活并应对全球挑战。在solidifiable物质世界的发现之旅才刚刚开始，它承诺将成为未来几代人激动人心的前沿。