Adhesion stress 基本释义:粘附应力
发音:英 [??d??(?)n ?stres] ;美 [??d??(?)n ?stres]
英语范文:粘附应力在材料科学和生物医学工程中非常重要。它是指物体表面与另一物体表面接触时产生的应力。在材料科学中,粘附应力可以用来评估材料的表面性能,如耐磨性、耐腐蚀性和抗粘附性等。在生物医学工程中,粘附应力对于医疗器械的设计和制造也非常重要,因为它可以影响医疗器械与人体组织的相互作用。
音标:/??d??(?)n / ?stres / /? /?d??(?)n / ?stres
基础释义:粘附应力是指物体表面与另一物体表面接触时产生的应力。在材料科学中,粘附应力可以用来评估材料的表面性能,而在生物医学工程中,它对于医疗器械的设计和制造也非常重要。
Adhesion Stress
Adhesion stress is a crucial concept in mechanical engineering. It refers to the stress that occurs when two or more materials are bonded together. In simple terms, it is the force that tries to pull the materials apart.
In everyday life, we are often unaware of adhesion stress because it occurs in hidden places, such as when glue is applied to two surfaces to fix them together. However, in engineering applications, it can have significant effects on the structure and stability of the system.
One example of adhesion stress is found in automobile manufacturing. When welding two metal sheets together, the welded area experiences adhesion stress. If this stress is not properly taken into account during design, it can lead to structural failure or instability.
To mitigate adhesion stress, engineers use various techniques, such as optimizing the bonding process, selecting materials with low coefficients of friction, and designing structures with sufficient clearance.
In conclusion, adhesion stress is a fundamental concept in mechanical engineering that must be taken into account in design and construction. Understanding its nature and effects is crucial for ensuring the safety and stability of engineering systems.
Adhesion stress
Adhesion stress refers to the stress that occurs when two surfaces are adhered together under certain conditions. It is a kind of internal stress that needs to be considered in the analysis of mechanical behavior of materials.
范文:
Adhesion stress is a kind of internal stress that occurs when two surfaces are adhered together. When analyzing the mechanical behavior of materials, we must take into account this kind of stress. In practical applications, adhesion stress may have a significant impact on the performance and safety of various components and systems. Therefore, it is necessary to study and predict the magnitude and distribution of adhesion stress to ensure the safe and reliable operation of components and systems.
