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Synergistic effects of the ingredients of brake friction materials on friction and wear: A case study on phenolic resin and potassium titanate
Diego Chavez Jara,
Ho Jang
Department of Materials Science and Engineering
Research output
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Contribution to journal
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Article
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peer-review
16
Citations (Scopus)
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Dive into the research topics of 'Synergistic effects of the ingredients of brake friction materials on friction and wear: A case study on phenolic resin and potassium titanate'. Together they form a unique fingerprint.
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Physics & Astronomy
phenolic resins
99%
brakes
87%
titanates
75%
ingredients
67%
potassium
64%
friction
55%
resins
37%
plateaus
34%
thermal decomposition
30%
debris
20%
platelets
10%
wear resistance
10%
reinforcement
9%
coefficient of friction
9%
sliding
8%
activation energy
6%
Engineering & Materials Science
Phenolic resins
87%
Friction materials
87%
Potassium
79%
Brakes
62%
Wear of materials
47%
Friction
45%
Resins
38%
Pyrolysis
30%
Temperature
26%
Debris
23%
Platelets
14%
Activation energy
11%
Wear resistance
10%
Reinforcement
8%
Chemical Compounds
Friction Material
100%
Wear
60%
Wear Rate
32%
Pyrolysis
27%
Decomposition Temperature
26%
Friction Coefficient
14%
Size Distribution
11%
Reaction Activation Energy
9%
Surface
8%
Resistance
8%