artificial fracture

简明释义

1. 人工裂缝; 2. 人造裂缝;

英英释义

例句

1.The geologist created an artificial fracture to study the flow of water in the rock formation.

地质学家创建了一个人工裂缝来研究岩石层中的水流动。

2.The researchers used an artificial fracture to simulate earthquake conditions in their experiments.

研究人员使用人工裂缝在实验中模拟地震条件。

3.An artificial fracture can help scientists understand how fluids move through porous materials.

一个人工裂缝可以帮助科学家理解流体如何通过多孔材料移动。

4.To improve oil recovery, engineers often create an artificial fracture network in the reservoir.

为了提高石油采收率，工程师通常在油藏中创建一个人工裂缝网络。

5.In hydraulic fracturing, an artificial fracture is generated to extract natural gas from deep underground.

在水力压裂中，生成一个人工裂缝以从地下深处提取天然气。

作文

In the field of medicine and engineering, the term artificial fracture refers to a controlled break or disruption that is intentionally created in a material or biological structure. This concept plays a crucial role in various applications, from testing the strength of materials to surgical procedures aimed at repairing bones. Understanding the implications and applications of artificial fracture can enhance our appreciation for both technological advancements and medical practices.In medicine, artificial fracture is often associated with orthopedic surgeries. For example, when a surgeon needs to correct a deformity or realign a broken bone, they may induce an artificial fracture to facilitate proper healing. This process allows the surgeon to manipulate the bone in a way that ensures it heals correctly, thus restoring function and mobility to the patient. Furthermore, this technique can be beneficial in cases where the natural healing process has been compromised due to poor alignment or other complications.On the other hand, in engineering and materials science, artificial fracture testing is a method used to evaluate the durability and strength of materials. By creating controlled fractures in materials, engineers can study how different substances respond to stress and strain. This information is vital for developing safer and more reliable products, especially in industries such as construction, aerospace, and automotive manufacturing. The insights gained from artificial fracture tests help engineers design materials that can withstand extreme conditions, ultimately leading to innovations that improve safety and efficiency.Moreover, the concept of artificial fracture extends beyond just physical applications. It also raises ethical questions in the medical field. For instance, the decision to induce an artificial fracture during surgery must always consider the patient's overall health and the potential risks involved. Surgeons must weigh the benefits of the procedure against the possibility of complications, ensuring that the patient's well-being remains the top priority. This careful consideration underscores the importance of ethical standards in medical practice, especially when dealing with invasive techniques like artificial fracture induction.In conclusion, the term artificial fracture encompasses a variety of applications across multiple fields, including medicine and engineering. Whether it is used to aid in surgical procedures or to test the durability of materials, understanding this concept is essential for both practitioners and researchers. As technology continues to advance, the methods and ethical considerations surrounding artificial fracture will likely evolve, further enhancing our ability to innovate while prioritizing safety and effectiveness. Through continued exploration and understanding of artificial fracture, we can look forward to a future where both medical and engineering practices are more refined and impactful than ever before.

在医学和工程领域，术语人工骨折指的是在材料或生物结构中故意创建的控制性断裂或破坏。这个概念在各种应用中发挥着至关重要的作用，从测试材料的强度到旨在修复骨骼的外科手术。理解人工骨折的意义和应用可以增强我们对技术进步和医疗实践的欣赏。在医学中，人工骨折通常与骨科手术相关。例如，当外科医生需要纠正畸形或重新对齐骨折时，他们可能会诱导人工骨折以促进正确愈合。这个过程使外科医生能够以确保骨骼正确愈合的方式操纵骨骼，从而恢复患者的功能和活动能力。此外，这种技术在自然愈合过程因不良对齐或其他并发症受到损害的情况下也可能是有益的。另一方面，在工程和材料科学中，人工骨折测试是一种用于评估材料耐久性和强度的方法。通过在材料中创建控制性断裂，工程师可以研究不同物质如何响应应力和应变。这些信息对于开发更安全、更可靠的产品至关重要，特别是在建筑、航空航天和汽车制造等行业。从人工骨折测试中获得的见解帮助工程师设计能够承受极端条件的材料，最终导致改善安全性和效率的创新。此外，人工骨折的概念不仅限于物理应用。它还在医疗领域引发了伦理问题。例如，在手术过程中诱导人工骨折的决定必须始终考虑患者的整体健康和潜在风险。外科医生必须权衡手术的好处与并发症的可能性，确保患者的福祉始终是首要任务。这种仔细考虑强调了在医疗实践中伦理标准的重要性，尤其是在处理诸如人工骨折诱导等侵入性技术时。总之，术语人工骨折涵盖了多个领域的各种应用，包括医学和工程。无论是用于辅助外科手术还是测试材料的耐久性，理解这一概念对从业者和研究人员来说都是至关重要的。随着技术的不断进步，围绕人工骨折的方法和伦理考量可能会不断演变，进一步提升我们在优先考虑安全性和有效性的同时进行创新的能力。通过继续探索和理解人工骨折，我们可以期待一个未来，其中医学和工程实践比以往任何时候都更加精细和具有影响力。