Page 70 - 摩擦学学报2025年第10期

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第 10 期郭红, 等: 多材料熔融沉积制备PEEK/PEI交替层状结构的摩擦学特性 1467

z/μm
1.4
Sliding direction 1.0
(a1) (b1) S Z = 1.474 1.2

0.8

Sliding direction 0.6
0.4
10 μm 10 μm 0.2
0.0
z/μm
S Z = 1.755
(a2) (b2)
1.5
1.0

0.5

10 μm 10 μm 0.0
z/μm
(a3) (b3) S Z = 1.691 1.6
1.4
1.2
1.0
0.8
Fiber fracture 0.6
0.4
10 μm 10 μm 0.2
0.0
S Z = 2.052 z/μm
(a4) (b4) 2.0

1.5
Fiber stripping 1.0

10 μm 10 μm 0.5

0.0

Fig. 9 The wear micrographs of layered composites at 228 N and 1 m/s: (a1, b1) MWCNT+PEI/5CF+PEEK；(a2, b2) MWCNT+
PEI/10CF+PEEK; (a3, b3) MWCNT+PEI/15CF+PEEK; (a4, b4) MWCNT+PEI/20CF+PEEK
图 9 在228 N和1 m/s下层状复合材料磨损形貌的SEM和三维照片：(a1, b1) MWCNT+PEI/5CF+PEEK；(a2, b2) MWCNT+
PEI/10CF+PEEK；(a3, b3) MWCNT+PEI/15CF+PEEK；(a4, b4) MWCNT+PEI/20CF+PEEK

表 2 MWCNT+PEI/CFs+PEEK层状复合材料滑动过程中的温升
Table 2 Temperature rise of MWCNT+PEI/CFs+PEEK laminated composites during sliding process
Temperature rise/℃
Load/N
MWCNT+PEI/5CF+PEEK MWCNT+PEI/10CF+PEEK MWCNT+PEI/15CF+PEEK MWCNT+PEI/20CF+PEEK
61 52.5 46.7 43.4 66.0
152 70.2 64.3 61.3 74.8
228 74.7 77.4 83.0 87.0

照片. 从图10(a)所示的MWCNT+PEI/15CF+PEEK层动速度增加到1.0 m/s时，磨损表面CF有明显的黏着剥
状复合材料的磨损表面形貌的SEM照片可知，当滑动落和开裂，形成的磨损碎屑仅被压实到钢表面的初始
速度为0.5 m/s时，复合材料磨损表面有凸出聚合物基粗糙度槽中，钢环表面凸起区域没有被转移的材料覆
体表面的CF，在滑动摩擦过程中承担主要载荷. 当滑盖，如图10(d)所示. 随着滑动速度的增加，黏着和剥落

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