adhesion stress的音標為["?d???(?)n stres]，基本翻譯是“粘著應力”或“粘附應力”。速記技巧可以考慮使用諧音法，例如使用“啊急升勢”來幫助記憶。

Adhesion stress: 粘附應力

英文詞源: “adhesion” 來自拉丁語 “adhere” ，意為 “to stick to” ，而 “stress” 來自拉丁語 “stare” ，意為 “to press” 或 “to lay hold of” 。因此，“adhesion stress” 可以理解為由于物體間的粘附作用而產生的應力。

變化形式: 在英語中，粘附應力的拼寫可能會發生變化，例如在某些情況下，“adhesion stress” 可能被寫作“adhesive stress”或“adhesion stress”。

相關單詞:

1. adhesive stress - 粘合應力，表示由于粘合劑的存在而產生的應力。

2. cohesive stress - 粘聚應力，表示物體內部由于粘聚力而產生的應力。

3. tensile stress - 拉伸應力，表示物體在拉伸方向上的應力。

4. compressive stress - 壓縮應力，表示物體在壓縮方向上的應力。

5. shear stress - 剪切應力，表示物體在剪切方向上的應力。

6. internal stress - 內部應力，表示物體內部由于結構或材料不均勻性而產生的應力。

7. residual stress - 殘余應力，表示由于加工、熱處理或裝配等過程產生的不可恢復的應力。

8. frictional stress - 摩擦應力，表示物體在摩擦過程中產生的應力。

9. adhesive bond - 粘合劑結合，一種通過粘合劑將兩個或多個物體粘合在一起的結合方式，因此它涉及到粘附應力。

10. cohesive zone - 粘聚區域，表示由粘聚力緊密連接的區域，這也涉及到粘附應力。

常用短語：

1. adhesive stress

2. interfacial stress

3. internal stress

4. tensile stress

5. compressive stress

6. shear stress

7. hydrostatic stress

8. stress concentration

例句：

1. The adhesive stress in the rubber material will affect its mechanical properties.

2. The interface between two materials often experiences high internal stress.

3. Under high tensile stress, the metal will undergo plastic deformation.

4. Compressive stress can cause material to crack and fail.

5. Shear stress can lead to material failure in a weld joint.

6. Hydrostatic stress can cause pipes to burst under excessive pressure.

7. Stress concentration can lead to premature failure of components.

英文小作文：

Stress is a common phenomenon in materials, and it can have a significant impact on the mechanical properties of materials. Adhesion stress, which occurs when two materials are bonded together, can affect the strength and durability of the bond. Internal stress, which is generated by differences in material properties or geometry, can cause material failure under certain conditions. Compressive stress, tensile stress, and shear stress are other types of stress that can affect materials, and they can occur at interfaces or within materials themselves. Understanding these stresses and how they affect materials is crucial for ensuring the long-term performance of components and structures.