Related references
Note: Only part of the references are listed.The Effects of Rice Husk Particles Size as A Reinforcement Component on Resin-Based Brake Pad Performance: From Literature Review on the Use of Agricultural Waste as A Reinforcement Material, Chemical Polymerization Reaction of Epoxy Resin, to Experiments
Asep Bayu Dani Nandiyanto et al.
Automotive Experiences (2021)
Copper-free brake-pads: A break-through by selection of the right kind of stainless steel particles
Navnath Kalel et al.
WEAR (2021)
Wear behavior of rice straw powder in automotive brake pads
Ibrahim Mutlu et al.
MATERIALS TESTING (2021)
Tribological behavior of glass/sisal fiber reinforced polyester composites
Gustavo S. Gehlen et al.
POLYMER COMPOSITES (2020)
Comparative performance assessment of pineapple and Kevlar fibers based friction composites
Tej Singh et al.
JOURNAL OF MATERIALS RESEARCH AND TECHNOLOGY-JMR&T (2020)
A review on plant fiber reinforced thermoset polymers for structural and frictional composites
Vijay Chaudhary et al.
POLYMER TESTING (2020)
Selection of natural fibers based brake friction composites using hybrid ELECTRE-entropy optimization technique
Tej Singh et al.
POLYMER TESTING (2020)
Tribological and physio-mechanical characterization of cow dung fibers reinforced friction composites: An effective utilization of cow dung waste
Yunhai Ma et al.
TRIBOLOGY INTERNATIONAL (2019)
Microstructure, wear and friction behavior of nanocomposite materials with natural ingredients
Mostafa Amirjan
TRIBOLOGY INTERNATIONAL (2019)
Synergy of rice-husk filler on physico-mechanical and tribological properties of hybrid Bauhinia-vahlii/sisal fiber reinforced epoxy composites
Sandeep Kumar et al.
JOURNAL OF MATERIALS RESEARCH AND TECHNOLOGY-JMR&T (2019)
A step towards replacing copper in brake-pads by using stainless steel swarf
Vishal Mahale et al.
WEAR (2019)
Influence of copper on automotive brake performance
L. Y. Barros et al.
WEAR (2019)
Influence of various cashew friction dusts on the fade and recovery characteristics of non-asbestos copper free brake friction composites
D. Lenin Singaravelu et al.
WEAR (2019)
Friction material composite: types of brake friction material formulations and effects of various ingredients on brake performance-a review
V. Vineeth Kumar et al.
MATERIALS RESEARCH EXPRESS (2019)
The effect of contact area on velocity weakening of the friction coefficient and friction instability: A case study on brake friction materials
Jin Woo Kim et al.
TRIBOLOGY INTERNATIONAL (2019)
Evaluation of wear resistance of corn stalk fiber reinforced brake friction materials prepared by wet granulation
Yucheng Liu et al.
WEAR (2019)
Effect of pressure in the transition between moderate and severe wear regimes in brake friction materials
L. Y. Barros et al.
WEAR (2019)
Analysis of the error in the estimation of the morphology of contact plateaus existing on the surface of brake pads
J. C. Poletto et al.
TRIBOLOGY INTERNATIONAL (2018)
Influence of wollastonite shape and amount on tribo-performance of non-asbestos organic brake friction composites
Tej Singh et al.
WEAR (2017)
Influence of nano-potassium titanate particles on the performance of NAO brake-pads
Vishal Mahale et al.
WEAR (2017)
Decomposition kinetic characteristics of calcium carbonate containing organic acids by TGA
Xiang-Guo Li et al.
ARABIAN JOURNAL OF CHEMISTRY (2017)
Development of copper-free eco-friendly brake-friction material using novel ingredients
Aranganathan N. Jayashree Bijwe
WEAR (2016)
A review on tribological performance of natural fibre polymeric composites
Umar Nirmal et al.
TRIBOLOGY INTERNATIONAL (2015)
Jute fibers and powderized hazelnut shells as natural fillers in non-asbestos organic non-metallic friction composites
Vlastimil Matejka et al.
MATERIALS & DESIGN (2013)
Friction and wear of Cu-free and Sb-free environmental friendly automotive brake materials
Poh Wah Lee et al.
WEAR (2013)
Tribological Properties of A356.2/RHA Composites
D. Siva Prasad et al.
JOURNAL OF MATERIALS SCIENCE & TECHNOLOGY (2012)
Development of eco-friendly brake friction composites containing flax fibers
Zhezhen Fu et al.
JOURNAL OF REINFORCED PLASTICS AND COMPOSITES (2012)
Contribution to perform high temperature tests (fading) on a laboratory-scale tribometer
P. D. Neis et al.
WEAR (2011)
On the role of copper in brake friction materials
W. Oesterle et al.
TRIBOLOGY INTERNATIONAL (2010)
Performance and evaluation of eco-friendly brake friction materials
Rongping Yun et al.
TRIBOLOGY INTERNATIONAL (2010)
Tribology of maleic anhydride modified rice-husk filled polyvinylchloride
Navin Chand et al.
WEAR (2010)
Effects of alumina in nonmetallic brake friction materials on friction performance
Vladimir Tomasek et al.
JOURNAL OF MATERIALS SCIENCE (2009)
The effect of phenolic resin, potassium titanate, and CNSL on the tribological properties of brake friction materials
Yun Cheol Kim et al.
WEAR (2008)
Friction properties of sisal fibre reinforced resin brake composites
Xu Xin et al.
WEAR (2007)
Investigation of disc/pad interface temperatures in friction braking
H. S. Qi et al.
WEAR (2007)
A combinatorial approach for automotive friction materials: Effects of ingredients on friction performance
YF Lu
COMPOSITES SCIENCE AND TECHNOLOGY (2006)
Performance of friction materials based on variation in nature of organic fibres Part I. Fade and recovery behaviour
BK Satapathy et al.
WEAR (2004)
Share Paper
