Effect of Various Synthetic and Natural Fibers for the Production of Copper-Free Automotive Brake Pads

Non-Asbestos organic composite friction materials are increasingly used in automotive brake disc pad applications. The present paper deals with the role of various organic fibers Kevlar, Acrylic fibers and the Rock fiber namely the Lapinus fiber on the fade and recovery behavior of friction composites. Three different friction composites were developed with same formulation varying only the percentage of Kevlar, Acrylic and lapinus fibers within the formulation. The formulations containing 13.5% of these fibers were developed as brake pads and designated as NA01, NA02 and NA03 respectively. The chemical and Mechanical properties are tested as per Indian Industrial standards.. The composites are then tested for the tribo-performance using Chase Testing Machine following SAE J661a standards. The fade µ, recovery µ and wear are significantly influenced by the amount and type of fiber combinations. Also the TGA reveals the degradation temperature of these fibers. Composite NA 03 containing Kevlar and lapinus combination is found to have good tribo performance. Worn surface analysis by SEM has proved to be useful in understanding the wear behavior of the composites.

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Automotive brake pads made with a bioresin matrix

Industrial Crops and Products ◽

10.1016/j.indcrop.2015.12.090 ◽

2016 ◽

Vol 85 ◽

pp. 372-381 ◽

Cited By ~ 27

Author(s):

M.C. Lagel ◽

L. Hai ◽

A. Pizzi ◽

M.C. Basso ◽

L. Delmotte ◽

...

Keyword(s):

Brake Pads ◽

Automotive Brake

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A retrofit for asbestos-based brake pad employing palm kernel fiber as the base filler material

Proceedings of the Institution of Mechanical Engineers Part L Journal of Materials Design and Applications ◽

10.1177/1464420718796050 ◽

2018 ◽

Vol 233 (9) ◽

pp. 1906-1913 ◽

Cited By ~ 1

Author(s):

CH Achebe ◽

JL Chukwuneke ◽

FA Anene ◽

CM Ewulonu

Keyword(s):

Specific Gravity ◽

Palm Kernel ◽

Friction Material ◽

Mechanical Tests ◽

Filler Material ◽

Oil Absorption ◽

Brake Pad ◽

Brake Pads ◽

The Matrix ◽

Automotive Brake

The development of automobile brake pad using locally sourced palm kernel fiber was carried out. Asbestos, a carcinogenic material, has been used for decades as a friction material. This development has thus prompted a couple of research efforts geared towards its replacement for brake pad manufacture. Palm kernel fiber was used as an alternative filler material in conjunction with various quantities of epoxy resin as the matrix. Three sets of compositions were made, and the resulting specimens subjected to physical and mechanical tests using standard materials, procedures, and equipment. The essence is to determine their suitability and hence possible performance in service. The result showed that sample C with 40% palm kernel fiber content having hardness, compressive strength, abrasion resistance, specific gravity, water absorption, and oil absorption of 178 MPa, 96.2 MPa, 1.67 mg/m, 1.8 g/cm3, 1.86%, and 0.89%, respectively, had an optimum performance rating. It was equally ascertained that increase in the filler content had the effect of increase in hardness, wear resistance, and specific gravity of the composite brake pad, while water and oil absorption got decreased when compared with results obtained by other researchers using conventional brake pads made of other friction materials including asbestos. This is an indicator that palm kernel fiber is a possible and effective retrofit for asbestos as a filler material in automotive brake pad manufacture.

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The effect of boron on the performance of automotive brake

World Journal of Engineering ◽

10.1260/1708-5284.10.6.523 ◽

2013 ◽

Vol 10 (6) ◽

pp. 523-528 ◽

Cited By ~ 1

Author(s):

A. Muzathik ◽

Y. Nizam ◽

M. Ahmad ◽

W. Nik

Keyword(s):

Surface Roughness ◽

Friction Coefficient ◽

Friction Material ◽

Brake System ◽

Brake Pad ◽

Brake Pads ◽

Brake Performance ◽

Single Material ◽

Automotive Brake

Friction material in an automotive brake system plays an important role for effective and safe brake performance. A single material has never been sufficient to solve performance related issues. Current research aimed to examine properties of Boron mixed brake pads by comparing them with the commercial brake pads. Friction coefficient of Boron mixed brake pads and commercial brake pads were significantly different and increased with the increase in surface roughness. The abrupt reduction of friction coefficient is more significant in commercial brake pad samples than in Boron mixed brake pad formulations. Fade occurred in commercial brake pad sample at lower temperatures. Boron formulations are more stable than their commercial counterparts.

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Characterization of Commercial Automotive Brake Pad Materials

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.842.36 ◽

2016 ◽

Vol 842 ◽

pp. 36-42

Author(s):

Eko Surojo ◽

Wijang Wisnu Raharjo ◽

Jamasri ◽

Aditya Utama

Keyword(s):

Spare Part ◽

Brake Pad ◽

Brake Pads ◽

Friction Testing ◽

Pin On Disc ◽

Automotive Parts ◽

The Difference ◽

Metallic Filler ◽

Automotive Brake

In automotive parts market, there are two classes of commercial brake pad that are original equipment manufacturer (OEM) and aftermarket (Non-OEM spare part). In manufacturing of commercial brake pad materials, the difference of ingredient or concentration used is important because of differences in characteristics and cost. It is well known that the OEM brake pads are more expensive than the Non-OEM brake pads. In this study, the OEM and the Non-OEM of passenger car brake pad were evaluated in order to obtain a comparison of friction characteristics, composition, and microstructure between them. The OEM and the Non-OEM brake pad were purchased, cut out to form specimen, and then evaluated to obtain material characteristics. Specimens were subjected to friction testing using pin on disc machine and microstructure examinations. The results show that the OEM brake pad material has lower and more stable in coefficient of friction than the Non-OEM brake pad material. The OEM brake pad material also has more wear resistance than the Non-OEM brake pad material. Examinations using SEM/EDS show that the OEM brake pad material contains metallic fillers that are Cu and Fe, on the other hand, the Non-OEM brake pad material does not contain metallic filler. The Non-OEM brake pad material uses asbestos as reinforcement.

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The Role of Graphitic Carbon Nitride in the Formulation of Copper-Free Friction Composites Designed for Automotive Brake Pads

Metals ◽

10.3390/met12010123 ◽

2022 ◽

Vol 12 (1) ◽

pp. 123

Author(s):

Vlastimil Matějka ◽

Mara Leonardi ◽

Petr Praus ◽

Giovanni Straffelini ◽

Stefano Gialanella

Keyword(s):

Carbon Nitride ◽

Room Temperature ◽

Graphitic Carbon ◽

Graphitic Carbon Nitride ◽

Main Role ◽

Brake Pads ◽

Pin On Disc ◽

Brake Lining ◽

Automotive Brake

In this study, graphitic carbon nitride (g-C3N4, labelled as gCN) was tested in the formulation of copper-free (Cu-free) friction mixtures, which are potentially interesting for brake pad manufacturing. Three formulations of friction composites were prepared starting from a common Cu-free master batch: (i) without graphite, (ii) with graphite and (iii) with gCN. The mixtures were pressed in the form of pins by hot-press moulding. The friction-wear performance of the prepared pins was investigated using a pin-on-disc (PoD) test at room temperature (RT), high temperature (HT) (400 °C) and, again, at room temperature (H-RT). The values of the friction coefficient (µ) for the composites with gCN (or graphite) were as follows: (i) RT test, µRT = 0.52 (0.47); (ii) HT test, µHT = 0.37 (0.37); (iii) RT after the HT tests, µH-RT = 0.49 (0.39). With respect to wear resistance, the samples with graphite performed better than the samples without this solid lubricant. To the best of our knowledge, this is the first report regarding the evaluation of the role of gCN in friction composites designed for automotive brake lining applications. The results indicate the main role of gCN as a soft abrasive.

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Evaluation of Compression Moulded Composites of Oxidised Polyacrylonitrile Fibres as a Friction Material for Automotive Brake Pads

10.4271/981184 ◽

1998 ◽

Author(s):

Sandro Campos Amico ◽

Fausto Rodrigues Filho

Keyword(s):

Friction Material ◽

Brake Pads ◽

Automotive Brake

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Effect of Pressing Pressure on Density and Hardness of Powder Miscanthus Reinforced Brake Pads

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.680.237 ◽

2014 ◽

Vol 680 ◽

pp. 237-240 ◽

Cited By ~ 1

Author(s):

Mahmut Unaldi ◽

Recai Kus

Keyword(s):

Apparent Density ◽

Phenolic Resin ◽

Natural Fibre ◽

The Other ◽

Sieve Analysis ◽

Pressing Pressure ◽

Brake Pad ◽

Brake Pads ◽

Moulding Pressure ◽

Automotive Brake

The aim of this paper is to develop new natural fibre reinforced for automotive brake pad application. For this purpose, new brake pad sampleswere produced using Miscanthus as reinforcement ingredient. The other ingredients are Cashew, Alumina, Phenolic Resin, and Calcite. Three different laboratory formulations were prepared with varying Miscanthus fibre contents from 10, 25, and 40 (wt) and these formulations were moulded four different moulding pressure values such as 50, 100, 200, and 300 MPa. Sieve analysis, density, apparent density, and hardness properties of brake pad samples produced are examined.

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