filiform

简明释义

英[ˈfɪlɪˌfɔːm]美[ˈfɪləˌfɔrm]

adj. 丝状的，纤维状的

英英释义

单词用法

同义词

反义词

例句

1.Style filiform, as long as petals.

花柱丝状，与花瓣等长。

2.It was effective, secure and easily operating to use the filiform-fire needle for postherpetic neuralgia in accordance with norms.

按照规范进行毫火针针刺，治疗后遗神经痛期患者，能明显改善其疼痛程度、睡眠、心理状态、综合症状等；

3.The utility model discloses a single or multiple strand latex filiform net belonging to a fishing net.

该实用新型是一种单股或多股胶丝套网，属于捕鱼网具。

4.A class of solvable 3-lie algebras with a 5-dimensional maximal hypo-nilpotent ideal, which is a 5-dimensional simplest filiform 3-lie algebra, is constructed.

构造了一类以5维最简线状3 -李代数为极大次幂零理想的可解3 -李代数，并且对构造的3 -李代数进行了分类。

5.The treatment group were treated with red-hot needle pricking at the proliferative parts and Ashi points as main, and the control group with filiform needle therapy.

治疗组采用火针点刺增生局部、阿是穴为主治疗，对照组采用传统毫针刺法治疗。

6.After the electrostimulation, filiform needle acupuncture, magnetic needle, magnetic needle plus pressing were also given.

并且在电刺激后进行毫针针刺、磁提针和磁提针加按压等处理。

7.After disinfection, needling around the diseased area was performed with Huatuo brand stainless steel filiform needle for 4-8 needlings (number of needling was defined with the size of focus).

消毒后用不锈钢华佗牌毫针4 ~ 8针(针数视病灶大小而定)施行围针疗法。

8.The type, the characteristics, the formation process, and the influencing factors of filiform corrosion were analyzed and discussed.

对涂膜下铝合金丝状腐蚀的几个特点、类型、形成过程和影响因素进行了分析和讨论。

9.The scientist discovered a new species of algae with filiform 丝状的 structures that help it absorb nutrients efficiently.

科学家发现了一种新的藻类物种，其具有 filiform 丝状的 结构，有助于有效吸收养分。

10.The plant's roots are filiform 丝状的, allowing it to penetrate deep into the soil for water.

这棵植物的根是 filiform 丝状的，使其能够深入土壤获取水分。

11.In some insects, the antennae are filiform 丝状的, which enhances their ability to detect pheromones.

在某些昆虫中，触角是 filiform 丝状的，这增强了它们检测信息素的能力。

12.The filiform 丝状的 appendages on the jellyfish help in capturing prey effectively.

水母上的 filiform 丝状的 附肢有助于有效捕捉猎物。

13.The artist used filiform 丝状的 lines to create a delicate and intricate design.

艺术家使用 filiform 丝状的 线条来创造精致复杂的设计。

作文

The natural world is filled with remarkable adaptations that allow organisms to thrive in their environments. One such adaptation can be seen in various species that exhibit a unique structure known as filiform (细丝状的) appendages. These slender, thread-like structures serve multiple purposes, from sensory functions to aiding in locomotion. For instance, certain insects possess filiform (细丝状的) antennae that enhance their ability to detect pheromones and navigate through their surroundings. This adaptation is crucial for their survival, as it helps them find food and mates. In the aquatic realm, some fish have evolved filiform (细丝状的) structures that extend from their bodies. These adaptations not only make them more hydrodynamic but also allow them to sense vibrations in the water, thus improving their hunting skills. The filiform (细丝状的) nature of these structures minimizes resistance as the fish swim, demonstrating the elegance of evolutionary design. Moreover, plants also showcase filiform (细丝状的) characteristics. Certain types of mosses and algae have filiform (细丝状的) structures that help them maximize surface area for photosynthesis while maintaining a lightweight form. This allows them to thrive in environments where other plants might struggle. The adaptability of these filiform (细丝状的) structures illustrates the intricate relationship between form and function in nature. In addition to their biological significance, filiform (细丝状的) structures also inspire technology and design. Engineers and architects often look to nature for inspiration, and the filiform (细丝状的) designs found in various organisms can lead to innovative solutions in materials and structures. For example, the study of filiform (细丝状的) shapes can inform the development of lightweight yet strong materials for aerospace engineering. In conclusion, the concept of filiform (细丝状的) structures transcends mere description; it encapsulates the beauty of adaptation and efficiency found in nature. From the delicate filiform (细丝状的) antennae of insects to the streamlined bodies of fish, these structures are a testament to the power of evolution. They remind us that nature, in its infinite wisdom, has crafted solutions that not only ensure survival but also inspire human innovation. As we continue to explore the wonders of the natural world, the study of filiform (细丝状的) structures will undoubtedly lead to new discoveries and advancements, bridging the gap between biology and technology.

自然界充满了令人惊叹的适应性，使生物能够在其环境中茁壮成长。其中一种适应性可以在各种物种中看到，这些物种表现出一种独特的结构，称为filiform（细丝状的）附肢。这些细长的、线状的结构具有多种用途，从感知功能到帮助运动。例如，某些昆虫拥有filiform（细丝状的）触角，增强了它们检测信息素和在周围环境中导航的能力。这种适应性对它们的生存至关重要，因为它帮助它们找到食物和伴侣。 在水生领域，一些鱼类进化出了从其身体延伸的filiform（细丝状的）结构。这些适应性不仅使它们更具流线型，还使它们能够感知水中的振动，从而提高狩猎技能。filiform（细丝状的）结构的特性最小化了鱼类游泳时的阻力，展示了进化设计的优雅。 此外，植物也展示了filiform（细丝状的）特征。某些类型的苔藓和藻类具有filiform（细丝状的）结构，帮助它们最大化光合作用的表面积，同时保持轻量形式。这使它们能够在其他植物可能挣扎的环境中茁壮成长。这些filiform（细丝状的）结构的适应性说明了自然界中形态与功能之间的复杂关系。 除了生物学上的重要性外，filiform（细丝状的）结构还激发了技术和设计。工程师和建筑师经常从自然中寻找灵感，而在各种生物中发现的filiform（细丝状的）设计可以带来材料和结构方面的创新解决方案。例如，filiform（细丝状的）形状的研究可以为航空航天工程中的轻质但坚固的材料开发提供参考。 总之，filiform（细丝状的）结构的概念超越了简单的描述；它概括了自然界中适应性和效率之美。从昆虫精致的filiform（细丝状的）触角到鱼类流线型的身体，这些结构证明了进化的力量。它们提醒我们，自然以其无限的智慧，创造了不仅确保生存而且激励人类创新的解决方案。随着我们继续探索自然界的奇迹，filiform（细丝状的）结构的研究无疑将引领我们发现新的事物和进步，架起生物学与技术之间的桥梁。