nonrigid

简明释义

[nɒnˈrɪdʒɪd][nɑːnˈrɪdʒɪd]

adj. 非刚性的

英英释义

Not rigid; capable of being easily bent or shaped.

不刚性的;能够被轻易弯曲或塑形的。

Referring to materials or structures that do not maintain a fixed shape under stress.

指在压力下不维持固定形状的材料或结构。

单词用法

nonrigid structure

非刚性结构

nonrigid body

非刚性物体

nonrigid material

非刚性材料

nonrigid motion

非刚性运动

nonrigid transformation

非刚性变换

nonrigid dynamics

非刚性动力学

同义词

flexible

灵活的

The material used in the design is flexible, allowing for various shapes.

设计中使用的材料是灵活的,可以形成各种形状。

pliant

易弯曲的

The pliant branches of the tree swayed gently in the wind.

树的柔韧枝条在风中轻轻摇摆。

yielding

顺从的

A yielding surface can absorb impact better than a rigid one.

一个顺应的表面比刚性的表面能更好地吸收冲击。

adaptable

适应性强的

An adaptable approach is crucial in today's fast-changing environment.

在当今快速变化的环境中,适应性强的方法至关重要。

反义词

rigid

刚性

The rigid structure of the building can withstand strong winds.

建筑物的刚性结构可以承受强风。

inflexible

不灵活

His inflexible attitude made it difficult to reach a compromise.

他不灵活的态度使得达成妥协变得困难。

例句

1.Combined with the basic principle and method of the radar multitarget resolving, the application of time frequency analysis is discussed for nonrigid multitarget resolving.

从雷达多目标分辨的基本原理和方法出发,探讨了时频分析在雷达非刚性多目标分辨中的应用问题。

2.The control points and the interpolation function are the key factors of the nonrigid algorithm.

标记点的选取及插值函数的确定是非刚性配准方法中最关键的两步。

3.The global rigid deformation of the image is mainly caused by the position changes of the sensor, and it includes rotation and shift. Cloud's distortion results in the local nonrigid deformation.

该算法不但考虑到传感器位置变化引起的旋转和平移等整体刚性形变,而且还考虑云的扭曲所引起的局部非刚性形变。

4.The tri plate horizontal mould with nonrigid surgical sponge inserts was developed to establish an industrial system for shaping surgical sponge which is used for cataract operation.

为建立白内障复明手术用吸血海绵制品的工业化规模成型加工体系,设计研制了以吸血海绵片为非刚性嵌件的三板式卧式注射模具。

5.The experimental results show that this method has the advantages of robustness, global optimality and high convergent speed and it is feasible for optical flow estimation of nonrigid body.

实验结果表明:本方法具有鲁棒性好、全局搜索能力强、收敛速度快和可用于非刚性体运动估计等优点。

6.Because this method is not based on the constraint of body rigidity, it can solve the correspondence problem of nonrigid body motion.

由于本方法没有涉及任何刚体运动约束,所以适用于各种非刚体运动的特征点对应。

7.The experimental results show that the extracted features have high separability between classes and the processing speed is fast. This method can be used to extract the features of nonrigid images.

实验证明,该方法下的特征类间区分度高,运行速度快,可用于解决非刚体图像的相关特征的提取。

8.The team experimented with nonrigid structures to improve the aerodynamics of their vehicle.

团队尝试使用非刚性结构来改善他们车辆的空气动力学性能。

9.The artist used nonrigid canvases to create dynamic sculptures that change shape over time.

艺术家使用非刚性画布创作动态雕塑,这些雕塑会随着时间而改变形状。

10.In the field of materials science, nonrigid polymers are being developed for use in soft robotics.

在材料科学领域,正在开发用于软机器人技术的非刚性聚合物。

11.In robotics, nonrigid joints can enable smoother movements and adaptability in various tasks.

在机器人技术中,非刚性关节可以使运动更加平滑,并在各种任务中具备适应性。

12.The architect designed a structure using nonrigid materials to allow for greater flexibility in response to environmental changes.

建筑师设计了一种使用非刚性材料的结构,以便能够更灵活地应对环境变化。

作文

In the world of engineering and design, the term nonrigid refers to materials or structures that are flexible and can deform under stress. Unlike rigid materials, which maintain their shape regardless of the forces applied to them, nonrigid components can bend, stretch, or compress, allowing for a variety of applications in different fields. This flexibility can be both an advantage and a disadvantage, depending on the context in which it is used.For instance, in the field of robotics, nonrigid structures are often employed to create more adaptable machines. These robots can navigate through complex environments by changing their shape and posture, much like how certain animals move. The ability to use nonrigid materials allows designers to create robots that can fit into tight spaces or manipulate objects with greater finesse than their rigid counterparts. This adaptability makes them invaluable in scenarios such as search and rescue missions, where navigating through debris requires flexibility and precision.Moreover, nonrigid materials are also prominent in the fashion industry. Designers often utilize fabrics that are soft and pliable, enabling them to create garments that flow and move with the body. The use of nonrigid textiles allows for innovative designs that enhance comfort and functionality. For example, activewear made from nonrigid materials provides athletes with the freedom to move without restriction, improving performance and overall experience.However, the use of nonrigid materials does come with challenges. In construction, for example, while nonrigid elements can absorb shocks and reduce the risk of structural failure during an earthquake, they may also lead to instability if not properly designed. Engineers must carefully consider the balance between flexibility and strength when incorporating nonrigid components into their projects. This is particularly important in areas prone to natural disasters, where building resilience is crucial.In addition to engineering and design, the concept of nonrigid can also be applied metaphorically in various aspects of life. For instance, in personal relationships, being nonrigid can mean being open-minded and adaptable to change. Individuals who embrace a nonrigid approach are often better equipped to handle the complexities of life, as they can adjust their perspectives and behaviors in response to new information or circumstances. This flexibility can lead to healthier relationships and improved communication, as partners learn to accommodate each other’s needs and preferences.In conclusion, the term nonrigid encompasses a wide array of applications and implications across multiple disciplines. Whether in engineering, fashion, or personal relationships, embracing nonrigid concepts can lead to innovative solutions and enhanced adaptability. As we continue to explore the potential of nonrigid materials and ideas, it becomes increasingly clear that flexibility is not just a characteristic of physical objects, but also a valuable trait in our daily lives. Understanding and leveraging the power of nonrigid approaches can ultimately lead to greater creativity, resilience, and success in various endeavors.

在工程和设计的世界中,术语nonrigid指的是能够在应力下变形的灵活材料或结构。与无论施加何种力量都能保持其形状的刚性材料不同,nonrigid组件可以弯曲、拉伸或压缩,从而在不同领域中有多种应用。这种灵活性在使用的上下文中可能是优势,也可能是劣势。例如,在机器人技术领域,通常会采用nonrigid结构来创造更具适应性的机器。这些机器人可以通过改变形状和姿势来导航复杂的环境,就像某些动物的移动方式一样。使用nonrigid材料的能力使设计师能够创建能够适应狭小空间或更精细地操纵物体的机器人。这种适应性使它们在搜索和救援任务等场景中变得不可或缺,因为在碎片中导航需要灵活性和精确性。此外,nonrigid材料在时尚行业也很突出。设计师经常利用柔软且可塑的面料,使他们能够创造出随着身体流动的服装。使用nonrigid纺织品使得创新设计成为可能,提高了舒适性和功能性。例如,由nonrigid材料制成的运动服为运动员提供了自由活动的空间,从而改善了表现和整体体验。然而,使用nonrigid材料也带来了挑战。在建筑中,虽然nonrigid元素可以吸收冲击并减少地震期间结构失效的风险,但如果设计不当,可能会导致不稳定。工程师在将nonrigid组件融入项目时,必须仔细考虑灵活性与强度之间的平衡。这在易受自然灾害影响的地区尤为重要,在这些地区,建筑的韧性至关重要。除了工程和设计,nonrigid的概念在生活的各个方面也可以隐喻性地应用。例如,在人际关系中,nonrigid的意思是开放思维和适应变化。接受nonrigid方法的个人通常更能应对生活的复杂性,因为他们能够根据新信息或情况调整自己的观点和行为。这种灵活性可以导致更健康的人际关系和更好的沟通,因为伴侣们学会适应彼此的需求和偏好。总之,术语nonrigid涵盖了多个学科中的广泛应用和含义。无论是在工程、时尚还是人际关系中,拥抱nonrigid概念都可以带来创新的解决方案和增强的适应能力。随着我们继续探索nonrigid材料和思想的潜力,越来越明显的是,灵活性不仅是物体的特征,也是我们日常生活中一种宝贵的品质。理解和利用nonrigid方法的力量最终可以在各种努力中带来更大的创造力、韧性和成功。