dioctyl fumarate

简明释义

反式丁烯二酸二辛酯

英英释义

例句

1.The safety data sheet indicated that dioctyl fumarate should be handled with care.

安全数据表指出，二辛基富马酸酯应小心处理。

2.Researchers found that adding dioctyl fumarate enhanced the thermal stability of the material.

研究人员发现，添加二辛基富马酸酯增强了材料的热稳定性。

3.The laboratory used dioctyl fumarate to improve the flexibility of the polymer.

实验室使用二辛基富马酸酯来提高聚合物的柔韧性。

4.Due to its properties, dioctyl fumarate is commonly used in the manufacturing of plastics.

由于其特性，二辛基富马酸酯通常用于塑料制造。

5.In the production of adhesives, dioctyl fumarate acts as a plasticizer.

在胶粘剂的生产中，二辛基富马酸酯作为增塑剂起作用。

作文

Dioctyl fumarate is a chemical compound that has gained attention in various fields, particularly in materials science and polymer chemistry. It is an ester formed from the reaction of fumaric acid and octanol, which gives it unique properties that are beneficial for several applications. One of the primary uses of dioctyl fumarate (二辛基富马酸酯) is as a plasticizer in the production of flexible plastics. Plasticizers are additives that improve the flexibility, workability, and performance of plastic materials. By incorporating dioctyl fumarate into polyvinyl chloride (PVC) and other polymers, manufacturers can create products that are not only more pliable but also possess enhanced durability and resistance to environmental factors.Moreover, dioctyl fumarate (二辛基富马酸酯) is known for its relatively low volatility, making it an excellent choice for applications where stability over time is crucial. This characteristic is particularly important in products that are exposed to heat or sunlight, as it helps maintain their physical properties without significant degradation. In addition to its role as a plasticizer, dioctyl fumarate has also been studied for its potential use in biomedical applications. Research indicates that it may have biocompatibility, which means it can be safely used in medical devices and drug delivery systems. The ability of dioctyl fumarate to form stable emulsions and enhance the solubility of certain compounds is particularly valuable in the pharmaceutical industry, where it can improve the efficacy of medications.The synthesis of dioctyl fumarate (二辛基富马酸酯) involves a straightforward chemical process that can be scaled up for industrial production. Typically, fumaric acid is reacted with octanol in the presence of a catalyst to facilitate the esterification reaction. The resulting product can then be purified and formulated for various applications. As industries continue to seek more sustainable and effective materials, the demand for compounds like dioctyl fumarate is likely to grow. Environmental considerations are becoming increasingly important, and researchers are exploring bio-based alternatives that could replace traditional plasticizers. dioctyl fumarate offers a promising avenue in this regard, as its properties can be tailored to meet specific needs while potentially reducing the environmental impact associated with conventional plasticizers.In conclusion, dioctyl fumarate (二辛基富马酸酯) is a versatile compound with significant implications in various industries. Its role as a plasticizer enhances the performance of polymers, while its potential in biomedical applications opens new avenues for research and development. As we continue to explore the capabilities of dioctyl fumarate, it is essential to consider both its benefits and the environmental challenges it may pose. With ongoing innovation and a focus on sustainability, dioctyl fumarate could play a vital role in shaping the future of materials science and beyond.

二辛基富马酸酯是一种化学化合物，在多个领域，特别是材料科学和聚合物化学中引起了关注。它是由富马酸和辛醇反应形成的一种酯，赋予其独特的性能，使其在多种应用中具有优势。二辛基富马酸酯的主要用途之一是在柔性塑料的生产中作为增塑剂。增塑剂是改善塑料材料的柔韧性、可加工性和性能的添加剂。通过将二辛基富马酸酯加入聚氯乙烯（PVC）和其他聚合物中，制造商可以创造出不仅更具柔韧性，而且具有增强耐久性和抗环境因素的产品。此外，二辛基富马酸酯以其相对较低的挥发性而闻名，这使其成为在时间稳定性至关重要的应用中的绝佳选择。这一特性在暴露于热或阳光下的产品中尤为重要，因为它有助于保持其物理属性，而不会显著降解。除了作为增塑剂的作用外，二辛基富马酸酯还被研究用于生物医学应用。研究表明，它可能具有生物相容性，这意味着可以安全地用于医疗设备和药物输送系统。二辛基富马酸酯形成稳定乳液和增强某些化合物溶解度的能力在制药行业中尤其有价值，因为它可以提高药物的有效性。二辛基富马酸酯的合成涉及一个简单的化学过程，可以进行工业规模的生产。通常，富马酸与辛醇在催化剂的存在下反应，以促进酯化反应。生成的产品可以进一步纯化并配方用于各种应用。随着各行业继续寻求更可持续和有效的材料，对像二辛基富马酸酯这样的化合物的需求可能会增长。环境考虑变得越来越重要，研究人员正在探索可以替代传统增塑剂的生物基替代品。在这方面，二辛基富马酸酯提供了一条有希望的途径，因为其性能可以根据特定需求进行调整，同时可能减少与传统增塑剂相关的环境影响。总之，二辛基富马酸酯是一种多功能化合物，对多个行业具有重要意义。它作为增塑剂的作用增强了聚合物的性能，而其在生物医学应用中的潜力为研究和开发开辟了新的途径。随着我们继续探索二辛基富马酸酯的能力，考虑其益处和可能带来的环境挑战至关重要。通过不断创新和关注可持续性，二辛基富马酸酯可能在塑造材料科学及其他领域的未来中发挥重要作用。