amianthoid
简明释义
英[ˌeɪmiˈænθɔɪd]美[ˌeɪmiˈænθɔɪd]
adj. 石棉样的(指软骨坏变时所见某些纤维)
英英释义
Resembling or having the characteristics of amianth, which is a type of mineral that is fibrous and has heat-resistant properties. | 类似于或具有石棉的特征,石棉是一种纤维状矿物,具有耐热特性。 |
单词用法
同义词
反义词
| 石棉状 | The material was found to be asbestiform, posing a health risk. | 该材料被发现为石棉状,存在健康风险。 | |
| 纤维状 | 如果吸入,纤维状矿物可能会有害。 |
例句
1.Purpose To observe the clinical pathologic characteristics of palisaded myofibroblastoma, approach its histogenesis and the nature of the amianthoid fibers (AF).
目的:观察栅状肌纤维母细胞瘤的临床病理特征,探索该肿瘤的组织来源及石棉样纤维的性质和来源。
2.Purpose To observe the clinical pathologic characteristics of palisaded myofibroblastoma, approach its histogenesis and the nature of the amianthoid fibers (AF).
目的:观察栅状肌纤维母细胞瘤的临床病理特征,探索该肿瘤的组织来源及石棉样纤维的性质和来源。
3.In the lab, we observed that the amianthoid 石棉状 structure provided excellent fire resistance.
在实验室中,我们观察到石棉状结构提供了优良的防火性能。
4.The mineral sample was identified as having an amianthoid 石棉状 texture, making it a subject of interest for geologists.
该矿物样本被鉴定为具有石棉状的纹理,成为地质学家关注的对象。
5.The researchers noted that the amianthoid 石棉状 fibers could pose health risks if inhaled.
研究人员指出,如果吸入,石棉状纤维可能会带来健康风险。
6.The amianthoid 石棉状 characteristics of the rock made it unique among other geological formations.
该岩石的石棉状特征使其在其他地质构造中独树一帜。
7.Due to its amianthoid 石棉状 properties, the material was considered for insulation applications.
由于其石棉状的特性,该材料被考虑用于绝缘应用。
作文
In the realm of geology and mineralogy, the term amianthoid refers to a specific type of mineral that resembles asbestos in appearance but lacks its fibrous structure. This characteristic makes amianthoid a subject of interest for both scientists and environmentalists. Understanding this mineral is crucial, especially considering the ongoing concerns about asbestos and its health implications. The word amianthoid is derived from the Greek words 'amiantos,' meaning unpolluted or pure, and 'eidos,' which means form or shape. Thus, amianthoid can be interpreted as having the form of something pure, which in this case relates to its visual similarity to asbestos. However, unlike asbestos, which is notorious for causing serious health issues such as lung cancer and mesothelioma, amianthoid does not possess the same harmful properties, making it a safer alternative in various applications.Geologists often find amianthoid in metamorphic rocks, where it forms under high-pressure and high-temperature conditions. Its presence can indicate specific geological processes and contribute to our understanding of the Earth's history. Moreover, the study of amianthoid can help us learn more about the formation of minerals and how they interact with their environment.In addition to its geological significance, amianthoid has potential industrial applications. For example, due to its heat-resistant properties, it could be used in construction materials and fireproofing products. This presents an exciting opportunity to explore alternatives to asbestos, providing safer options for industries that require heat-resistant materials. The development of amianthoid as a viable substitute could lead to innovations in building safety and environmental sustainability.However, it is essential to approach the use of amianthoid with caution. While it does not carry the same risks as asbestos, any new material must be thoroughly tested for safety and efficacy before widespread adoption. Researchers are currently investigating the long-term effects of exposure to amianthoid to ensure that it is indeed a safe alternative.In conclusion, amianthoid represents a fascinating intersection of geology, industrial application, and environmental health. As we continue to seek alternatives to hazardous materials like asbestos, understanding and utilizing amianthoid could play a significant role in advancing both safety and innovation in various fields. By studying this mineral, we not only gain insights into the Earth’s geological processes but also pave the way for safer materials that protect both workers and the environment. The journey of exploring amianthoid is just beginning, and its potential could be groundbreaking in the quest for sustainable solutions in our ever-evolving world.
在地质学和矿物学领域,术语amianthoid指的是一种外观上类似于石棉但缺乏其纤维结构的特定类型矿物。这一特性使得amianthoid成为科学家和环保主义者关注的对象。理解这种矿物至关重要,特别是在当前对石棉及其健康影响的持续关注下。单词amianthoid源自希腊语“amiantos”,意为无污染或纯净,以及“eidos”,意为形状或形式。因此,amianthoid可以被解释为具有某种纯粹形式,在这种情况下与其视觉上与石棉的相似性有关。然而,与臭名昭著的石棉不同,石棉因造成严重健康问题(如肺癌和间皮瘤)而声名狼藉,amianthoid并不具备相同的有害特性,使其在各种应用中成为更安全的替代品。地质学家通常在变质岩中发现amianthoid,它在高压和高温条件下形成。它的存在可以指示特定的地质过程,并有助于我们理解地球的历史。此外,研究amianthoid可以帮助我们更多地了解矿物的形成以及它们如何与环境相互作用。除了其地质意义外,amianthoid还有潜在的工业应用。例如,由于其耐热特性,它可以用于建筑材料和防火产品。这为探索石棉的替代品提供了令人兴奋的机会,为需要耐热材料的行业提供更安全的选择。将amianthoid开发为可行的替代品可能会在建筑安全和环境可持续性方面带来创新。然而,使用amianthoid时必须谨慎。虽然它不携带与石棉相同的风险,但任何新材料在广泛采用之前都必须经过彻底测试以确保安全性和有效性。研究人员目前正在调查暴露于amianthoid的长期影响,以确保它确实是一个安全的替代品。总之,amianthoid代表了地质学、工业应用和环境健康之间的迷人交汇点。随着我们继续寻找危险材料(如石棉)的替代品,理解和利用amianthoid可能在推动各个领域的安全和创新方面发挥重要作用。通过研究这种矿物,我们不仅获得了对地球地质过程的洞察,还为保护工人和环境的安全材料铺平了道路。探索amianthoid的旅程才刚刚开始,其潜力在我们不断发展的世界中可能具有突破性。
