rupturable

简明释义

英[/ˈrʌptʃərəbl/]美[/ˈrʌptʃərəbəl/]

adj. 可破裂的，可断绝的

英英释义

单词用法

同义词

反义词

例句

1.The cassette parts (210, 250) are preferably made of PETG and have bonded thereto rupturable membranes (202, 204) preferably made of PET.

盒部(210,250)优选由PETG制造，其上粘接有优选由PET制造的可破裂薄膜(202、204)。

2.The cassette parts (210, 250) are preferably made of PETG and have bonded thereto rupturable membranes (202, 204) preferably made of PET.

盒部(210,250)优选由PETG制造，其上粘接有优选由PET制造的可破裂薄膜(202、204)。

3.The new packaging is designed to be more durable and less rupturable 易破裂的 than previous models.

这种新包装设计得更耐用，且比以前的型号更易破裂的。

4.In medical applications, materials must be rupturable 易破裂的 under specific conditions for effective treatment.

在医疗应用中，材料必须在特定条件下是易破裂的，以便有效治疗。

5.The research showed that certain polymers are highly rupturable 易破裂的 when exposed to extreme temperatures.

研究表明，某些聚合物在极端温度下是高度易破裂的。

6.When designing safety equipment, engineers avoid using rupturable 易破裂的 materials to ensure maximum protection.

在设计安全设备时，工程师避免使用易破裂的材料，以确保最大保护。

7.The product's rupturable 易破裂的 nature makes it unsuitable for long-term storage.

该产品的易破裂的特性使其不适合长期存储。

作文

In today's world, the concept of materials and their properties plays a crucial role in various fields, from engineering to medicine. One term that often comes up in discussions about material science is rupturable. This adjective describes something that is capable of being broken or ruptured under stress. Understanding the implications of rupturable materials can lead to significant advancements in technology and safety measures. For instance, consider the construction industry. Engineers must choose materials that can withstand various forces without failing. However, there are instances where rupturable materials might be advantageous. For example, in certain applications, it might be beneficial for a material to fail in a controlled manner to prevent catastrophic outcomes. A rupturable component in a bridge could allow for a gradual failure, giving engineers time to address the issue before a complete collapse occurs. This understanding of rupturable materials can help in designing safer structures that protect human lives. Similarly, in the field of medicine, the concept of rupturable is also significant. Medical devices, such as balloons used in angioplasty, are designed to be rupturable at specific pressures. This property ensures that they can expand to the desired size before safely bursting, allowing for the removal of blockages in arteries without causing excessive damage to surrounding tissues. The intentional design of rupturable elements in medical devices showcases how this characteristic can be harnessed to improve patient outcomes. Moreover, the study of rupturable materials extends to environmental science as well. For example, certain plastic materials are designed to be rupturable in order to break down more easily in landfills. By creating products that can intentionally rupture and degrade, we can mitigate some of the long-term environmental impacts of waste. This innovative approach highlights how understanding the properties of rupturable materials can lead to more sustainable practices. However, the use of rupturable materials does come with its challenges. For instance, if a material is too rupturable, it may not provide the necessary strength or durability for certain applications. Therefore, researchers and engineers must find a balance between strength and the ability to rupture under specific conditions. This ongoing research is vital for developing new materials that meet the demands of modern technology while ensuring safety and efficacy. In conclusion, the term rupturable encapsulates a fascinating aspect of material science that has far-reaching implications across various industries. From construction to medicine and environmental sustainability, understanding and utilizing rupturable materials can lead to innovative solutions that enhance safety, efficiency, and sustainability. As we continue to advance in technology, the importance of recognizing and applying the properties of rupturable materials will only grow, paving the way for a safer and more sustainable future.

在当今世界，材料及其特性概念在各个领域中发挥着至关重要的作用，从工程到医学。一个经常出现在材料科学讨论中的术语是rupturable。这个形容词描述的是在压力下能够被打破或破裂的东西。理解rupturable材料的含义可以导致技术和安全措施的重大进步。 例如，考虑建筑行业。工程师必须选择能够承受各种力量而不失效的材料。然而，在某些情况下，rupturable材料可能是有利的。例如，在某些应用中，材料以可控的方式失效可能是有益的，以防止灾难性的结果。桥梁中的rupturable组件可以允许逐渐失效，从而给工程师时间在完全崩溃发生之前解决问题。这种对rupturable材料的理解可以帮助设计更安全的结构，保护人类生命。 同样，在医学领域，rupturable的概念也很重要。医疗设备，例如用于血管成形术的气球，设计为在特定压力下可rupturable。这个特性确保它们可以扩展到所需的大小，然后安全地破裂，允许去除动脉中的阻塞，而不会对周围组织造成过多损伤。医疗设备中rupturable元素的故意设计展示了如何利用这一特性来改善患者结果。 此外，对rupturable材料的研究也扩展到环境科学。例如，某些塑料材料被设计为可rupturable，以便在填埋场中更容易降解。通过创造可以故意破裂和降解的产品，我们可以减轻废物的长期环境影响。这种创新方法突显了理解rupturable材料特性如何导致更可持续的实践。 然而，使用rupturable材料也面临挑战。例如，如果材料过于rupturable，可能无法为某些应用提供必要的强度或耐久性。因此，研究人员和工程师必须在强度和在特定条件下破裂的能力之间找到平衡。这项持续的研究对于开发满足现代技术需求的新材料至关重要，同时确保安全性和有效性。 总之，术语rupturable概括了材料科学的一个迷人方面，它在各个行业中具有深远的影响。从建筑到医学以及环境可持续性，理解和利用rupturable材料可以导致创新解决方案，提高安全性、效率和可持续性。随着我们在技术上的不断进步，认识和应用rupturable材料特性的意义只会越来越大，为更安全、更可持续的未来铺平道路。