bionics
简明释义
n. 仿生学
英英释义
单词用法
仿生肢体 | |
仿生植入物 | |
仿生技术 | |
仿生学的研究 | |
仿生学的进展 | |
仿生学的应用 |
同义词
| 仿生学 | Biomimetics has inspired many innovations in engineering and design. | 仿生学激发了许多工程和设计领域的创新。 | |
| 生物工程 | Bioengineering is crucial for developing new medical devices. | 生物工程对开发新医疗设备至关重要。 | |
| 生物力学 | 生物力学研究生物体的力学特性。 |
反义词
| 自然生物学 | Natural biology studies the processes and systems found in living organisms. | 自然生物学研究生物体内的过程和系统。 | |
| 有机系统 | Organic systems are essential for maintaining ecological balance. | 有机系统对于维持生态平衡至关重要。 |
例句
1.The paper presents the design of walking leg for bionics crab-liked robot, which is driving with micro servo motor.
本文介绍了一种采用微型直流伺服电机驱动的仿生机器蟹步行腿设计及其运动学、动力学分析。
2.The importance of bionics suddenly hits you.
你就会对仿生学的重要性恍然大悟。
3.Bionics are the reason we can lead normal lives …… I thought we could use bionics to solve all the worlds problems.
生化战士是我从新过活的唯一希望……我曾相信我可以用生化义肢来解决这世界上的一切问题。
4.The bionics algorithm provides a new scientism method on designing plank thickness of the hydraulic press frame and other box structures.
仿生算法为大型油压机横梁及其它薄壁箱形结构的优化设计提供了一种全新可行的科学方法。
5.This paper points out problems in humanoid robot studies and brings up a novel 5 DOF bionics arm project.
分析了目前仿人机器人研究中存在的问题,提出一种新颖的5自由度手臂机器人方案。
6.The bionics material are new study domain of The material subject. The status quo of this research is surveyed and its prospect discussed.
仿生材料是材料学科的一个新的研究领域,本文介绍了仿生材料的研究现状,展望了其发展前景。
7.In medicine, bionics 仿生学 is being used to create artificial organs that function like natural ones.
在医学中,仿生学被用于创造功能类似于自然器官的人工器官。
8.The concept of bionics 仿生学 is inspired by nature and aims to solve human problems.
仿生学的概念受到自然的启发,旨在解决人类问题。
9.Researchers are studying bionics 仿生学 to develop robots that can mimic animal movements.
研究人员正在研究仿生学,以开发可以模仿动物动作的机器人。
10.Many athletes are using bionics 仿生学 technology to enhance their performance with advanced equipment.
许多运动员正在使用仿生学技术,通过先进的设备提升他们的表现。
11.The field of bionics 仿生学 has advanced significantly in recent years, leading to innovative prosthetic devices.
仿生学在近年来取得了显著进展,导致创新的假肢设备问世。
作文
In recent years, the field of science and technology has made remarkable advancements, one of which is the study of bionics. bionics (仿生学) refers to the design and production of materials, structures, and systems that are modeled on biological entities and processes. This fascinating discipline combines biology with engineering, allowing us to create innovative solutions inspired by nature. For instance, researchers have been studying how birds fly to develop more efficient aircraft designs, or how the structure of a lotus leaf can lead to self-cleaning surfaces. The implications of bionics are vast, impacting various sectors including medicine, robotics, and environmental sustainability.One of the most significant applications of bionics is in the field of medicine. Prosthetic limbs have evolved dramatically due to advances in bionics. Traditional prosthetics were often cumbersome and limited in functionality. However, with the integration of bionics, modern prosthetics can mimic the movement and dexterity of natural limbs. For example, researchers have developed prosthetic hands that can grasp objects with varying degrees of pressure, thanks to sensors and motors that replicate human muscle movements. This not only improves the quality of life for amputees but also allows them to perform daily tasks more independently.Another exciting area where bionics is making strides is in robotics. Engineers are increasingly looking to nature for inspiration when designing robots. For instance, the study of how insects navigate their environment has led to the development of tiny drones that can maneuver through tight spaces. These bio-inspired robots are being used in search and rescue missions, exploring areas that are dangerous for humans. Additionally, bionics has influenced the design of soft robots that can adapt to their surroundings, much like octopuses do in the ocean. This adaptability opens up new possibilities for robots to operate in diverse environments, from disaster zones to underwater exploration.Moreover, bionics plays a crucial role in addressing environmental challenges. Nature has perfected many processes over millions of years, and by studying these, scientists can develop sustainable technologies. For example, the way trees filter air and capture carbon dioxide has inspired new methods for air purification and carbon capture. Similarly, the efficiency of photosynthesis in plants has led to innovations in solar energy collection. By harnessing the principles of bionics, we can create solutions that not only benefit humanity but also protect our planet.In conclusion, bionics (仿生学) is a transformative field that bridges the gap between biology and technology. Its applications in medicine, robotics, and environmental sustainability highlight the endless possibilities that arise when we look to nature for inspiration. As we continue to explore the intricacies of biological systems, we will undoubtedly uncover new insights that can lead to groundbreaking innovations. The future of bionics holds great promise, and it is an exciting time to be part of this interdisciplinary journey.
近年来,科学技术领域取得了显著的进步,其中之一就是对bionics(仿生学)的研究。bionics指的是模仿生物实体和过程设计和生产材料、结构和系统。这一迷人的学科将生物学与工程相结合,使我们能够创造出受自然启发的创新解决方案。例如,研究人员一直在研究鸟类飞行的方式,以开发更高效的飞机设计,或者研究荷叶的结构如何导致自清洁表面。bionics的影响是巨大的,涉及医学、机器人技术和环境可持续性等多个领域。bionics在医学领域的一个重要应用是义肢。由于bionics的进步,义肢已经发生了巨大的变化。传统的义肢通常笨重且功能有限。然而,随着bionics的整合,现代义肢可以模拟自然肢体的运动和灵活性。例如,研究人员开发了可以以不同压力抓握物体的义肢手,这得益于复制人类肌肉运动的传感器和电机。这不仅改善了截肢者的生活质量,还使他们能够更独立地完成日常任务。bionics正在机器人技术中取得进展的另一个令人兴奋的领域。工程师们越来越多地从自然中寻找灵感来设计机器人。例如,研究昆虫如何在其环境中导航的方式,导致了微型无人机的开发,这些无人机可以在狭小的空间中灵活移动。这些仿生机器人被用于搜救任务,探索对人类危险的区域。此外,bionics还影响了软体机器人的设计,这些机器人可以像章鱼一样适应其周围环境。这种适应性为机器人在多样化环境中的操作开辟了新的可能性,从灾区到水下探索。此外,bionics在应对环境挑战方面发挥着至关重要的作用。自然经过数百万年的演变完善了许多过程,通过研究这些过程,科学家可以开发可持续技术。例如,树木过滤空气和捕获二氧化碳的方式启发了新的空气净化和碳捕获方法。同样,植物光合作用的效率也促进了太阳能收集的创新。通过利用bionics的原理,我们可以创造出不仅惠及人类而且保护我们星球的解决方案。总之,bionics(仿生学)是一个变革性的领域,弥合了生物学与技术之间的鸿沟。它在医学、机器人技术和环境可持续性方面的应用突显了当我们向自然寻求灵感时所产生的无尽可能性。随着我们继续探索生物系统的复杂性,我们无疑会发现新的见解,从而导致突破性的创新。bionics的未来充满希望,参与这一跨学科旅程的时刻令人兴奋。
