triaxial
简明释义
adj. 三轴的;三维的;空间的
英英释义
与三个轴相关或涉及三个轴。 | |
In engineering and materials science, it often refers to tests or models that consider three-dimensional stress or strain. | 在工程和材料科学中,它通常指考虑三维应力或应变的测试或模型。 |
单词用法
三轴压缩试验 | |
三轴压缩,三轴压力 |
同义词
| 三轴 | triaxial testing is commonly used in geotechnical engineering. | 三轴试验通常用于土木工程。 |
反义词
例句
1.The triaxial tests of sand and mucky soil have been done.
本文对砂土和淤泥质粘土做了室内三轴试验。
2.The tool orientation is made by a triaxial accelerometer and three magnetometers.
下井仪器的方位由一个三轴加速度计和三个磁力计测量。
3.The practice of triaxial method is introduced in this paper.
并对该标准测试方法的具体实践进行了介绍。
4.Study Design. Dynamic triaxial biomechanical testing of immature and mature ovine spine motion segments.
研究设计:动态三维生物力学方法测试幼年和成年羊的脊柱运动节段。
5.The steady state strength concepts, the consolidated-undrained triaxial shear test method and the test results are introduced.
介绍了稳态强度理论的基本概念、稳态强度的固结不排水剪切试验方法及试验结果;
6.If a triaxial vacuum feedthrough is unavailable, a metal safety shield should be built around the isolated BNC connection (Figure 4-18).
如果无法找到三同轴的真空接头,那么可以在绝缘的BNC连接处构建金属安全屏蔽(图4 - 18)。
7.The automatic initial calibration of triaxial accelerometers and triaxial magnetic sensor, based on least squares method, is implemented.
并运用基于最小二乘的方法实现了一种自动初始校准算法。
8.The automatic initial calibration of triaxial accelerometers and triaxial magnetic sensor, based on least squares method, is implemented.
并运用基于最小二乘的方法实现了一种自动初始校准算法。
9.The engineer used a triaxial 三轴 test to assess the soil's strength.
工程师使用了一个三轴 triaxial 测试来评估土壤的强度。
10.Our research focuses on the behavior of materials under triaxial 三轴 stress conditions.
我们的研究集中在材料在三轴 triaxial 应力条件下的行为。
11.The triaxial 三轴 testing apparatus is essential for geotechnical engineering.
该三轴 triaxial 测试设备是岩土工程中必不可少的。
12.The triaxial 三轴 test results showed significant variations in the material properties.
该三轴 triaxial 测试结果显示材料属性存在显著变化。
13.In the laboratory, we performed a triaxial 三轴 compression test on the rock samples.
在实验室中,我们对岩石样本进行了三轴 triaxial 压缩测试。
作文
In the realm of engineering and materials science, the term triaxial refers to a specific type of stress or strain that is applied in three different directions. Understanding triaxial behavior is crucial for engineers when designing structures that can withstand various forces. For instance, when constructing buildings, bridges, or other infrastructures, engineers must consider how materials will perform under triaxial stress conditions, which simulate real-world scenarios where multiple forces act simultaneously on an object.The triaxial test is one of the most widely used methods to evaluate the mechanical properties of soil and rock. This test involves placing a cylindrical specimen of the material in a chamber where it can be subjected to controlled pressures from all three axes. By applying pressure from different directions, engineers can determine how the material behaves under triaxial loading conditions, which is essential for predicting failure modes and ensuring stability in construction projects.One of the key aspects of the triaxial test is that it provides valuable information about the strength and deformation characteristics of materials. For example, the results from a triaxial test can help engineers understand how soil will react during events such as earthquakes or landslides. This information is vital for designing foundations and retaining walls that can resist these natural forces.Moreover, the concept of triaxial stress is not limited to geotechnical engineering. It also applies to other fields such as aerospace and mechanical engineering. In aerospace applications, understanding triaxial stresses is important for ensuring that aircraft can withstand the various forces encountered during flight, including turbulence and changes in altitude. Similarly, in mechanical engineering, triaxial stress analysis is essential for components that experience complex loading conditions, such as gears and shafts.The significance of triaxial behavior extends beyond engineering into the realm of material science. Researchers study triaxial properties to develop new materials that can better withstand extreme conditions. For instance, advancements in composite materials often involve understanding how these materials behave under triaxial stress, leading to innovations in industries ranging from automotive to sports equipment.In conclusion, the concept of triaxial stress is integral to various fields of study, particularly in engineering and materials science. By understanding how materials respond to triaxial loading conditions, professionals can make informed decisions that enhance safety, durability, and performance in their designs. As technology continues to evolve, the importance of accurately assessing triaxial behavior will only grow, paving the way for more resilient structures and materials in the future.
在工程和材料科学领域,术语triaxial指的是在三个不同方向上施加的特定类型的应力或应变。理解triaxial行为对工程师在设计能够承受各种力量的结构时至关重要。例如,在建造建筑、桥梁或其他基础设施时,工程师必须考虑材料在triaxial应力条件下的表现,这模拟了在物体上同时作用多个力量的现实场景。triaxial试验是评估土壤和岩石机械性能的最广泛使用的方法之一。该测试涉及将材料的圆柱形样本放置在一个可以在三个轴向施加控制压力的室内。通过从不同方向施加压力,工程师可以确定材料在triaxial加载条件下的行为,这对于预测失效模式并确保建筑项目的稳定性至关重要。triaxial试验的一个关键方面是它提供了有关材料强度和变形特性的宝贵信息。例如,triaxial试验的结果可以帮助工程师了解土壤在地震或滑坡等事件期间的反应。这些信息对于设计能够抵御这些自然力量的基础和挡土墙至关重要。此外,triaxial应力的概念不仅限于岩土工程。它还适用于航空航天和机械工程等其他领域。在航空航天应用中,理解triaxial应力对于确保飞机能够承受飞行过程中遇到的各种力量(包括湍流和高度变化)至关重要。同样,在机械工程中,triaxial应力分析对于经历复杂载荷条件的部件(如齿轮和轴)也至关重要。triaxial行为的重要性超越了工程领域,延伸到材料科学领域。研究人员研究triaxial特性,以开发能够更好地承受极端条件的新材料。例如,复合材料的进步通常涉及理解这些材料在triaxial应力下的表现,从而推动汽车到运动器材等行业的创新。总之,triaxial应力的概念是各个研究领域,特别是工程和材料科学的核心。通过理解材料如何响应triaxial加载条件,专业人士可以做出明智的决策,从而增强其设计的安全性、耐用性和性能。随着技术的不断发展,准确评估triaxial行为的重要性只会增加,为未来更具韧性的结构和材料铺平道路。
