thorite
简明释义
n. [矿物] 钍石;硅酸钍矿
英英释义
Thorite is a mineral composed mainly of thorium silicate, often found in granitic rocks and pegmatites. | 钍矿是一种主要由钍硅酸盐组成的矿物,通常在花岗岩和伟晶岩中发现。 |
单词用法
钍矿物 | |
钍矿床 | |
钍含量 | |
钍矿石 |
同义词
| 钍 | 钍是核能应用中的关键元素。 | ||
| 独居石 | 独居石通常用作稀土元素的来源。 |
反义词
例句
1.The plumbothorite discovered for the first time is a new variety of thorite.
铅钍石是钍石的新变种,属首次发现。
2.The plumbothorite discovered for the first time is a new variety of thorite.
铅钍石是钍石的新变种,属首次发现。
3.In nuclear geology, thorite is significant due to its thorium content.
在核地质学中,thorite因其含有的钍而具有重要意义。
4.The mineral thorite is often found in granitic rocks.
矿物thorite通常在花岗岩中发现。
5.Mining companies are exploring thorite deposits for their thorium extraction potential.
采矿公司正在探索thorite矿床以获取其提取钍的潜力。
6.Geologists study thorite to understand the formation of rare earth elements.
地质学家研究thorite以了解稀土元素的形成。
7.The presence of thorite can indicate potential sources of uranium.
存在thorite可能表明潜在的铀源。
作文
Thorite is a mineral that plays a significant role in the field of geology and nuclear science. It is primarily composed of thorium, a radioactive element that has garnered attention due to its potential use as a nuclear fuel. Understanding the properties and applications of thorite (钍矿) can provide insights into both natural processes and technological advancements. The discovery of thorite (钍矿) dates back to the early 19th century when it was first identified in Norway. Since then, it has been found in various locations around the world, including the United States, Canada, and Australia. The mineral typically appears as dark brown or black crystals, often with a resinous luster. Its unique composition, which includes not only thorium but also small amounts of uranium and rare earth elements, makes it a subject of interest for researchers and industries alike.One of the most notable aspects of thorite (钍矿) is its potential as a source of thorium for nuclear energy production. Unlike uranium, thorium is more abundant and produces less long-lived radioactive waste. This characteristic makes thorite (钍矿) an attractive alternative for future nuclear reactors. As the world seeks cleaner and more sustainable energy sources, the role of thorium, and by extension thorite (钍矿), could become increasingly important.In addition to its energy applications, thorite (钍矿) is also studied for its geological significance. The presence of thorite (钍矿) in certain rock formations can indicate the geological history of an area, including the processes of magma formation and crystallization. Geologists often analyze thorite (钍矿) to understand the conditions under which it formed, which can provide valuable information about the Earth's crust and its evolution over time.However, the use and study of thorite (钍矿) come with challenges. As a radioactive mineral, it poses health risks if not handled properly. Safety protocols must be in place to protect workers and the environment from potential exposure to radiation. Additionally, the extraction and processing of thorite (钍矿) require careful consideration of environmental impacts, as mining activities can disrupt local ecosystems.In conclusion, thorite (钍矿) is more than just a mineral; it represents a bridge between geology and nuclear science. Its potential as a source of thorium for energy production, alongside its geological significance, highlights the importance of understanding this mineral. As research continues and technology advances, thorite (钍矿) may play a crucial role in shaping the future of energy and our understanding of the Earth. By recognizing the value of thorite (钍矿), we can appreciate the intricate connections between natural resources and human innovation.
钍矿是一种在地质学和核科学领域中扮演重要角色的矿物。它主要由钍组成,这是一种因其作为核燃料的潜在用途而受到关注的放射性元素。理解thorite(钍矿)的性质和应用可以为我们提供对自然过程和技术进步的洞察。thorite(钍矿)的发现可以追溯到19世纪初,当时它首次在挪威被识别。从那时起,它在世界各地被发现,包括美国、加拿大和澳大利亚。这种矿物通常呈深棕色或黑色晶体,常具有树脂光泽。它独特的成分不仅包括钍,还包括少量铀和稀土元素,使其成为研究人员和行业关注的对象。thorite(钍矿)最显著的特点之一是其作为核能生产钍源的潜力。与铀不同,钍更为丰富且产生的长寿命放射性废物较少。这一特性使得thorite(钍矿)成为未来核反应堆的一个有吸引力的替代方案。随着世界寻求更清洁、更可持续的能源来源,钍及其衍生物thorite(钍矿)的角色可能会变得越来越重要。除了能源应用外,thorite(钍矿)还因其地质意义而受到研究。在某些岩石形成中,thorite(钍矿)的存在可以表明该地区的地质历史,包括岩浆形成和结晶过程。地质学家经常分析thorite(钍矿),以了解其形成时的条件,这可以提供关于地壳及其演变的宝贵信息。然而,thorite(钍矿)的使用和研究也面临挑战。作为一种放射性矿物,如果处理不当,会带来健康风险。必须制定安全协议,以保护工人和环境免受潜在的辐射暴露。此外,提取和加工thorite(钍矿)需要仔细考虑环境影响,因为采矿活动可能会破坏当地生态系统。总之,thorite(钍矿)不仅仅是一种矿物;它代表了地质学与核科学之间的桥梁。它作为核能生产钍源的潜力,以及其地质意义,突显了理解这种矿物的重要性。随着研究的继续和技术的进步,thorite(钍矿)可能在塑造未来能源和我们对地球的理解方面发挥关键作用。通过认识到thorite(钍矿)的价值,我们可以欣赏自然资源与人类创新之间的复杂联系。
