trinitrate
简明释义
英[traɪˈnaɪtreɪt]美[traɪˈnaɪtreɪt]
n. 三硝酸酯
英英释义
A chemical compound containing three nitrate groups, typically used in explosives or as a medication for heart conditions. | 一种含有三个硝酸酯基团的化合物,通常用于炸药或作为心脏病药物。 |
单词用法
甘油三硝酸酯 | |
乙基三硝酸酯 | |
三硝酸酯化合物 | |
三硝酸酯药物 |
同义词
硝酸盐 | 三硝酸盐常用于炸药的制造。 | ||
甘油三硝酸酯 | 甘油三硝酸酯常用于心脏病的处方。 | ||
二硝酸盐 | Dinitrate can be used as a vasodilator in medical treatments. | 二硝酸盐可用作医疗治疗中的血管扩张剂。 |
反义词
单硝酸酯 | 单硝酸酯常用于治疗心绞痛的药物中。 | ||
二硝酸酯 | Dinitrate compounds are also used in various pharmaceutical applications. | 二硝酸酯化合物也用于各种药物应用中。 |
例句
1.Objective To show dose-dependent effect of glyceryl trinitrate (GTN) on conduit arteries, resistive arterioles, and capacitive veins using noninvasive pulse wave analysis.
目的用无创脉搏波分析方法揭示硝酸甘油(GTN)对不同特性血管的剂量依赖效应。
2.Objective To show dose-dependent effect of glyceryl trinitrate (GTN) on conduit arteries, resistive arterioles, and capacitive veins using noninvasive pulse wave analysis.
目的用无创脉搏波分析方法揭示硝酸甘油(GTN)对不同特性血管的剂量依赖效应。
3.The thermal decomposition characteristics of trimethylolpropane trinitrate(TMPTN) were investigated by means of high pressure DSC.
利用高压DSC研究了三羟甲基丙烷三硝酸酯(TMPTN)的热分解特性。
4.GTN(glyceryl trinitrate) provided no relief although normally relieves pain in minutes, no other relieving/exacerbating factors.
硝酸甘油平时能在数分钟内缓解疼痛,但本次无效,无其它缓解和恶化因素。
5.There was no difference between groups in endothelium -independent glyceryl trinitrate changes in...
两组的肱动脉区域内皮依赖性三硝酸甘油酯的变化无异。
6.The doctor prescribed a medication containing trinitrate for the patient's angina.
医生为患者的心绞痛开了一种含有三硝酸酯的药物。
7.In emergency situations, trinitrate can be used to relieve chest pain quickly.
在紧急情况下,三硝酸酯可以迅速缓解胸痛。
8.Patients should be aware of the side effects associated with trinitrate medications.
患者应该了解与三硝酸酯药物相关的副作用。
9.The trinitrate compound was developed in the early 20th century for medical use.
这种三硝酸酯化合物是在20世纪初开发用于医学用途的。
10.Sublingual trinitrate is often used for rapid relief of acute angina attacks.
舌下含服的三硝酸酯通常用于快速缓解急性心绞痛发作。
作文
In the realm of chemistry, few compounds have garnered as much attention as those that contain nitrates. Among these, one particularly significant compound is trinitrate. The term trinitrate refers to a class of chemical compounds that contain three nitrate groups attached to a single molecule. This structure not only influences the properties of the compound but also its applications in various fields, including medicine and explosives. Understanding trinitrate is crucial for both students and professionals in chemistry, as it plays a pivotal role in various reactions and processes. To illustrate the significance of trinitrate, let us consider its application in medicine. One of the most well-known forms of trinitrate is nitroglycerin, which is used as a vasodilator to treat heart conditions such as angina pectoris. When administered, nitroglycerin acts by relaxing the blood vessels, thus improving blood flow and reducing the heart's workload. This therapeutic use of trinitrate has saved countless lives and continues to be a cornerstone in cardiovascular medicine. It showcases how a compound, despite its potential dangers, can be harnessed for beneficial purposes. On the other hand, the explosive properties of trinitrate cannot be overlooked. Compounds like TNT (trinitrotoluene) are a type of trinitrate that have been widely used in military applications and construction. The stability of these compounds under certain conditions makes them suitable for controlled explosions, allowing for their use in demolishing buildings or in warfare. However, this dual nature of trinitrate—as both a lifesaving medication and a powerful explosive—highlights the importance of understanding its chemical behavior and the precautions necessary when handling such substances. Moreover, the study of trinitrate extends beyond its immediate applications. In the field of environmental science, researchers are investigating the impact of nitrate compounds on ecosystems. Excessive use of fertilizers containing nitrates can lead to runoff, causing pollution in water bodies. This has prompted discussions on sustainable practices in agriculture to minimize the negative effects of trinitrate and other nitrate compounds on the environment. Therefore, understanding the chemistry of trinitrate is not just an academic exercise; it has real-world implications that affect health, safety, and environmental sustainability. In conclusion, trinitrate is a compound with a complex identity, serving critical roles in both medicine and industry. Its ability to act as a vasodilator demonstrates the positive potential of chemical compounds, while its explosive characteristics remind us of the inherent risks associated with such substances. As we continue to explore the myriad ways in which trinitrate interacts with other elements and compounds, we must approach our studies with a sense of responsibility and awareness of the broader implications of our work. Ultimately, a thorough understanding of trinitrate will empower future chemists, medical professionals, and environmental scientists to make informed decisions that benefit society as a whole.
在化学领域,少数化合物像硝酸盐那样引起了广泛的关注。在这些化合物中,有一种特别重要的化合物是三硝酸酯。术语trinitrate指的是一类含有三个硝酸根基团附着于单一分子的化合物。这种结构不仅影响化合物的性质,还影响其在包括医学和爆炸物等多个领域的应用。理解trinitrate对化学学生和专业人士来说至关重要,因为它在各种反应和过程中发挥着关键作用。 为了说明trinitrate的重要性,让我们考虑其在医学中的应用。最著名的trinitrate形式之一是甘油三硝酸酯,它被用作血管扩张剂来治疗心脏病,如心绞痛。当施用时,甘油三硝酸酯通过放松血管来改善血流,从而减少心脏的负担。这种trinitrate的治疗用途拯救了无数生命,并继续成为心血管医学的基石。它展示了一个化合物尽管具有潜在危险,但可以被利用于有益目的。 另一方面,trinitrate的爆炸特性也不容忽视。像TNT(三硝基甲苯)这样的化合物是一种trinitrate,广泛用于军事应用和建筑中。这些化合物在某些条件下的稳定性使它们适合用于控制爆炸,从而允许它们用于拆除建筑物或战争。然而,trinitrate这种双重特性——既是拯救生命的药物,又是强大的爆炸物——突显了理解其化学行为的重要性,以及处理此类物质时所需的预防措施。 此外,对trinitrate的研究超越了其直接应用。在环境科学领域,研究人员正在调查硝酸盐化合物对生态系统的影响。过量使用含硝酸盐的肥料可能导致径流,造成水体污染。这促使人们讨论可持续农业实践,以尽量减少trinitrate及其他硝酸盐化合物对环境的负面影响。因此,理解trinitrate的化学性质不仅仅是学术练习;它具有影响健康、安全和环境可持续性的现实意义。 总之,trinitrate是一种复杂的化合物,在医学和工业中发挥着关键作用。它作为血管扩张剂的能力展示了化学化合物的积极潜力,而它的爆炸特性则提醒我们与此类物质相关的固有风险。当我们继续探索trinitrate与其他元素和化合物的相互作用的众多方式时,我们必须以责任感和对我们工作的更广泛影响的意识来对待我们的研究。最终,透彻理解trinitrate将使未来的化学家、医疗专业人士和环境科学家能够做出有利于整个社会的明智决策。
文章标题:trinitrate的意思是什么
文章链接:https://www.liuxue886.cn/danci/484081.html
本站文章均为原创,未经授权请勿用于任何商业用途
发表评论