unbraced
简明释义
adj. 放松,不加撑的
v. 放松(unbrace 的过去分词)
英英释义
Not supported or reinforced, especially in a structural context. | 在结构上下文中,未被支撑或加固的。 |
缺乏提供稳定性的支撑或支架。 |
单词用法
未加固结构 | |
未加固框架 | |
未加固系统 | |
未加固墙 |
同义词
| 未固定的 | The structure was left unsecured, leading to potential hazards. | 该结构未固定,导致潜在危险。 | |
| 无支持的 | 无支持的横梁在重压下下垂。 | ||
| 松动的 | 松动的部件导致机器故障。 |
反义词
| 支撑的 | 该结构经过支撑以抵御强风。 | ||
| 支持的 | 支撑的梁承受了屋顶的重量。 |
例句
1.Among the patients with cerebral palsy, no significant differences in the standardized outcome measurements were found between the braced and unbraced conditions or between the two braced conditions.
标准化测量脑瘫患儿在用支架和不用支架以及两种支架上没有差别。
2.Among the patients with cerebral palsy, no significant differences in the standardized outcome measurements were found between the braced and unbraced conditions or between the two braced conditions.
标准化测量脑瘫患儿在用支架和不用支架以及两种支架上没有差别。
3.The evaluation of column effective length factor both braced frames and unbraced frames with flexible joints is derived.
按此方程导出了无侧移框架和有侧移框架柱的计算长度取值方法。
4.The following are general criteria for determining unbraced length.
以下是确定无支撑长度的一般标准。
5.When beams are loaded disproportionately, the unbraced lengths shall be determined as noted above.
如果横梁的负荷不成比例,则无支撑长度由如上所述来确定。
6.The architect noted that the unbraced design could lead to structural failure.
建筑师指出,未加支撑的设计可能导致结构失效。
7.The structure remained unbraced during the earthquake, leading to significant damage.
在地震期间,结构保持了未加支撑,导致了严重损坏。
8.Engineers decided to leave the frame unbraced for easier access during construction.
工程师决定在施工期间将框架保持为未加支撑,以便更容易进入。
9.The unbraced walls of the building were a safety concern for the inspectors.
建筑物的未加支撑墙壁是检查员关注的安全隐患。
10.In high winds, the unbraced sections of the roof began to sway dangerously.
在强风中,屋顶的未加支撑部分开始危险地摇摆。
作文
In the world of engineering and architecture, the term unbraced refers to structures or components that lack additional support to resist lateral forces. This concept is crucial when designing buildings, bridges, and other constructions, as it directly affects their stability and safety. When a structure is unbraced, it is more susceptible to bending, swaying, or even collapsing under stress, especially during events such as earthquakes or high winds.Take, for instance, the design of skyscrapers. Engineers must ensure that these tall structures are equipped with adequate bracing systems to counteract the forces acting upon them. If a skyscraper were to remain unbraced, the risk of structural failure would increase dramatically. Bracing can come in various forms, including diagonal supports, shear walls, or moment-resisting frames. Each of these methods adds a layer of strength that helps maintain the integrity of the building.The implications of an unbraced design extend beyond mere aesthetics; they can have severe consequences for safety. In regions prone to seismic activity, buildings that do not incorporate sufficient bracing are at a much higher risk of catastrophic failure. For example, during the 1994 Northridge earthquake in California, many buildings that were inadequately braced suffered significant damage or collapsed entirely. This tragedy highlighted the importance of incorporating effective bracing systems into architectural designs.Moreover, the concept of being unbraced is not limited to physical structures. It can also be applied metaphorically to situations in life where individuals feel unsupported or vulnerable. For instance, a person embarking on a new career path may feel unbraced if they lack mentorship or guidance. Just as engineers strive to provide structural support, individuals can seek out mentors or support networks to help them navigate challenges.In conclusion, the term unbraced carries significant weight in both engineering and personal contexts. Understanding its implications allows us to appreciate the importance of support systems, whether in constructing resilient buildings or fostering personal growth. As we move forward, let us remember that just as structures require bracing to withstand external pressures, we too can benefit from the support of others in our endeavors. By recognizing when we are feeling unbraced, we can take proactive steps to seek the assistance we need, ultimately leading to greater stability and success in our lives.
在工程和建筑的世界中,术语unbraced指的是缺乏额外支持以抵抗横向力的结构或组件。这个概念在设计建筑物、桥梁和其他建筑时至关重要,因为它直接影响到这些结构的稳定性和安全性。当一个结构处于unbraced状态时,它在受到压力时更容易弯曲、摇摆甚至倒塌,尤其是在地震或强风等事件发生时。以摩天大楼的设计为例。工程师必须确保这些高大结构配备足够的支撑系统,以抵消作用于它们的力量。如果一座摩天大楼保持unbraced状态,其结构失效的风险将大幅增加。支撑可以采取多种形式,包括对角支撑、剪力墙或抗弯框架。这些方法中的每一种都增加了一层强度,有助于维持建筑的完整性。unbraced设计的影响不仅限于美学;它们可能对安全产生严重后果。在地震活动频繁的地区,那些未能充分支撑的建筑物面临着更高的灾难性失败风险。例如,在1994年加利福尼亚州的诺斯里奇地震期间,许多设计不当的建筑遭受了重大损坏或完全倒塌。这场悲剧突显了将有效支撑系统纳入建筑设计的重要性。此外,unbraced的概念不仅限于物理结构。它也可以隐喻地应用于生活中那些感到缺乏支持或脆弱的情况。例如,一个人开始新的职业道路时,如果缺乏导师或指导,可能会感到unbraced。正如工程师努力提供结构支持一样,个人可以寻求导师或支持网络来帮助他们应对挑战。总之,术语unbraced在工程和个人背景中都具有重要意义。理解其含义使我们能够欣赏支持系统的重要性,无论是在构建坚韧的建筑物还是促进个人成长方面。随着我们前进,让我们记住,就像结构需要支撑以抵御外部压力一样,我们也能从他人的支持中受益。通过认识到我们何时感到unbraced,我们可以采取主动措施寻求所需的帮助,最终在我们的生活中实现更大的稳定性和成功。
