INFLUENCE OF FIBER REINFORCEMENT AND ABRASIVE PARTICLE SIZE ON THREE-BODY ABRASIVE WEAR OF HYBRID FRICTION COMPOSITES

机译：纤维增强件和磨粒粒度对混合摩擦复合材料三体磨料的影响

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In the present study, enhancement of abrasion resistance of phenol formaldehyde (PF) resin based hybrid friction composites with different ingredients viz. binder, micron sized fibers and fillers have been synergistically investigated. Hybrid friction composites based on basalt and recycled aramid fibers were prepared using compression moulding. Three-body abrasive wear tests were conducted according to ASTM G-65 standard by dry sand/rubber wheel abrasion tester using two different size of angular silica sand abrasives (212 and 425μm) at a constant load of 40 N. The results indicated that the wear volume loss increases with increasing abrading distance and abrasive particle size. However, the specific wear rate decreased with increasing abrading distance and increases with increase in abrasive particle size. Addition of fiber content has a significant influence on the abrasive wear performance of these composites. Further, the worn surfaces were examined by scanning electron microscopy to identify the involved wear mechanisms.

机译：在本研究中，提高酚醛醛（PF）树脂的杂种摩擦复合材料的耐磨性，具有不同成分的viz。粘合剂，微米尺寸的纤维和填料已经协同研究。使用压缩成型制备基于玄武岩和再循环芳族聚酰胺纤维的混合摩擦复合材料。使用两种不同大小的角硅砂研磨剂（212和425μm）在40 n的恒定负荷下，根据ASTM G-65标准进行三体磨料磨损试验。结果表明了随着磨损距离和磨料粒度的增加，磨损体积损失增加。然而，比磨损率随着磨损距离的增加而降低，随着磨料粒度的增加而增加。添加纤维含量对这些复合材料的磨料磨损性能具有显着影响。此外，通过扫描电子显微镜检查磨损的表面以识别所涉及的磨损机构。

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《International Conference on Advances in Materials and Manufacturingngineering》|2015年||共6页
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S. Manoharan; G. Ramadoss; B. Suresha; R. Vijay;
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中图分类 TB3-53;
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Hybrid friction composites; Three-body abrasive wear; Specific wear rate; Scanning electron microscopy;

机译：混合摩擦复合材料;三体磨料;特定磨损率;扫描电子显微镜;

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1. Influence of Cenosphere Filler Additions on the Three-Body Abrasive Wear Behavior of Glass Fiber-Reinforced Epoxy Composites [J] . B.Suresha, G.Chandramohan, Siddaramaiah Polymer Composites . 2008,第3期

机译：空心球填料的添加对玻璃纤维增强环氧树脂复合材料三体磨料磨损行为的影响
2. Friction and Wear of Fiber Composites with Abrasive Particles on Contact Surface [J] . A. G. Shpenev Journal of Friction and Wear . 2018,第3期

机译：玻璃纤维复合材料的摩擦和磨损颗粒接触表面
3. Influence of SiC reinforcement on the abrasive wear response of an AS-Cu alloy under conditions of varying abrasive size and applied load [J] . B. K. Prasad, K. Venkateswarlu, S. Das, Journal of Materials Science Letters . 1997,第13期

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4. INFLUENCE OF FIBER REINFORCEMENT AND ABRASIVE PARTICLE SIZE ON THREE-BODY ABRASIVE WEAR OF HYBRID FRICTION COMPOSITES [C] . S. Manoharan, G. Ramadoss, B. Suresha, International Conference on Advances in Materials and Manufacturingngineering . 2015

机译：纤维增强件和磨粒粒度对混合摩擦复合材料三体磨料的影响
5. Influence of abrasive grit size/lead concentration on dust particle size when sanding lead based paint. [D] . Alexander, W. K. 2004

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6. Influence of wear parameters on friction performance of A356 aluminum – graphite/ granite particles reinforced metal matrix hybrid composites [O] . Tirlangi Satyanarayana, Putti Srinivasa Rao, M.Gopi Krishna 2019

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7. INFLUENCE OF FIBER REINFORCEMENT AND ABRASIVE PARTICLE SIZE ON THREE-BODY ABRASIVE WEAR OF HYBRID FRICTION COMPOSITES [O] . S. Manoharan, G. Ramadoss, B. Suresha, 2015

机译：纤维增强和磨料颗粒尺寸对混杂摩擦复合材料三体磨料磨损的影响

INFLUENCE OF FIBER REINFORCEMENT AND ABRASIVE PARTICLE SIZE ON THREE-BODY ABRASIVE WEAR OF HYBRID FRICTION COMPOSITES

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