black deflection

简明释义

强振幅;

英英释义

例句

1.In the experiment, we observed a significant black deflection 黑偏移 in the material when exposed to heat.

在实验中，我们观察到材料在加热时出现显著的黑偏移 黑偏移。

2.The black deflection 黑偏移 observed in the model indicated a flaw in the design.

模型中观察到的黑偏移 黑偏移表明设计存在缺陷。

3.To improve accuracy, the team adjusted for black deflection 黑偏移 in their final calculations.

为了提高准确性，团队在最终计算中调整了黑偏移 黑偏移。

4.The technician noted the black deflection 黑偏移 readings during the calibration process.

技术员在校准过程中记录了黑偏移 黑偏移的读数。

5.The engineer measured the black deflection 黑偏移 of the beam under load to ensure structural integrity.

工程师测量了梁在负载下的黑偏移 黑偏移以确保结构完整性。

作文

In the realm of physics and engineering, the term black deflection holds significant importance. It refers to the phenomenon where materials or structures experience a change in shape or position due to applied forces, particularly under conditions that involve heat absorption or energy transfer. Understanding black deflection is crucial for engineers and designers when creating products that must withstand various environmental factors, such as temperature changes or mechanical stresses.The concept of black deflection can be observed in numerous applications, from the design of bridges to the construction of spacecraft. For instance, when a bridge is subjected to heavy traffic, the materials used in its construction may deform slightly, a process known as deflection. If the materials are capable of absorbing heat, their properties may change, leading to what we call black deflection. This can result in structural weaknesses if not properly accounted for during the design phase.One of the most critical aspects of black deflection is its impact on safety. Engineers must calculate the potential for deflection in their designs to ensure that structures can safely support the loads they will encounter throughout their lifespan. Failure to consider black deflection can lead to catastrophic failures, as seen in several historical bridge collapses. Therefore, understanding this concept is not just an academic exercise; it is a matter of public safety.Moreover, black deflection is not limited to large structures. It also plays a role in everyday objects, such as the components of electronic devices. For example, circuit boards can experience black deflection when exposed to heat generated by the electronic components they house. If the deflection is significant enough, it can lead to malfunctions or even complete failure of the device. Thus, manufacturers must take black deflection into account when designing and testing their products.In addition to practical applications, black deflection also serves as a fascinating topic for research and innovation. Scientists and engineers are constantly looking for new materials that can better withstand deflection while maintaining their integrity under extreme conditions. Advances in material science have led to the development of composites and alloys that exhibit improved resistance to black deflection, making them ideal for use in high-stress environments.In conclusion, the term black deflection encompasses a critical aspect of engineering and materials science that affects both safety and functionality. Whether in the context of large-scale structures like bridges or small electronic devices, understanding how materials respond to forces and heat is essential for effective design and engineering. As technology continues to advance, the study of black deflection will remain a vital area of focus, ensuring that our built environment is safe, efficient, and capable of withstanding the challenges of modern life.

在物理和工程领域，“黑色偏转”这个术语具有重要意义。它指的是材料或结构由于施加的力量而发生形状或位置变化的现象，尤其是在涉及热吸收或能量转移的条件下。理解黑色偏转对于工程师和设计师在创建必须承受各种环境因素（如温度变化或机械应力）的产品时至关重要。黑色偏转的概念可以在许多应用中观察到，从桥梁的设计到航天器的建造。例如，当一座桥梁遭受重型交通时，其建设中使用的材料可能会轻微变形，这一过程称为偏转。如果材料能够吸收热量，它们的性质可能会发生变化，从而导致我们所说的黑色偏转。如果在设计阶段没有适当考虑这一点，可能会导致结构的弱点。黑色偏转的一个关键方面是其对安全的影响。工程师必须计算他们设计中的偏转潜力，以确保结构能够安全地支持其在整个生命周期内将遇到的负载。如果不考虑黑色偏转，可能会导致灾难性的失败，这在几起历史桥梁坍塌事件中得到了体现。因此，理解这一概念不仅仅是学术上的练习；它关乎公共安全。此外，黑色偏转并不限于大型结构。它还在日常物品中发挥作用，例如电子设备的组件。例如，当电路板暴露于电子元件产生的热量时，可能会经历黑色偏转。如果偏转足够显著，可能会导致故障甚至设备的完全失效。因此，制造商在设计和测试其产品时必须考虑黑色偏转。除了实际应用，黑色偏转也是研究和创新的一个引人入胜的话题。科学家和工程师不断寻找能够更好地承受偏转同时保持其在极端条件下完整性的材料。材料科学的进步导致开发出具有改进的抗黑色偏转能力的复合材料和合金，使其成为高应力环境的理想选择。总之，术语黑色偏转涵盖了工程和材料科学的一个关键方面，影响着安全性和功能性。无论是在桥梁等大型结构的背景下，还是在小型电子设备中，了解材料如何响应力和热量对于有效的设计和工程至关重要。随着技术的不断进步，黑色偏转的研究将仍然是一个重要的关注领域，确保我们的建筑环境安全、高效，并能够应对现代生活的挑战。