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Tribology Transactions Volume 59, 2016 - Issue 4
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Original Articles

Effects of Zinc Borate and Fly Ash on the Mechanical and Tribological Characteristics of Brake Friction Materials

B. ÖztürkDepartment of Metallurgical and Materials Engineering, Karadeniz Technical University, Trabzon, TurkeyCorrespondence[email protected]
&
T. MutluDepartment of Metallurgical and Materials Engineering, Karadeniz Technical University, Trabzon, Turkey
Pages 622-631 | Received 16 Apr 2015, Accepted 17 Sep 2015, Published online: 18 May 2016

Citations (26)

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Ajith G. Joshi, K. N. Bharath & S. Basavarajappa. (2023) Recent progress in the research on natural composite brake pads: a comprehensive review. Tribology - Materials, Surfaces & Interfaces 17:3, pages 237-259.
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B. Tang, J.-L. Mo, Y. K. Wu, X. Quan, M. H. Zhu & Z. R. Zhou. (2019) Effect of the Friction Block Shape of Railway Brakes on the Vibration and Noise under Dry and Wet Conditions. Tribology Transactions 62:2, pages 262-273.
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Articles from other publishers (24)

Debarghya Saha, Deepika Sharma & Bhabani K. Satapathy. (2023) Challenges pertaining to particulate matter emission of toxic formulations and prospects on using green ingredients for sustainable eco-friendly automotive brake composites. Sustainable Materials and Technologies, pages e00680.
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Tej Singh. (2023) Comparative performance of barium sulphate and cement by-pass dust on tribological properties of automotive brake friction composites. Alexandria Engineering Journal 72, pages 339-349.
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Hicri Yavuz. (2023) Effect of limestone usage on tribological properties in copper and asbestos-free brake friction materials. Industrial Lubrication and Tribology 75:2, pages 238-245.
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N Balaji, Abdallah M Elgorban, Ali H Bahkali & Nouf S S Zaghloul. (2023) Biodegradable cow dung for brake friction material: a preliminary investigation. Materials Research Express 10:1, pages 015102.
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Ali Can YILMAZ. (2022) Effects of fly ash introduction on friction and wear characteristics of brake pads. International Journal of Automotive Engineering and Technologies 11:3, pages 96-103.
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R. Rajan, Yogesh K. Tyagi, Catalin I. Pruncu, Shweta Kulshreshtha, Lalit Ranakoti & Tej Singh. (2022) Tribological performance evaluation of slag waste filled phenolic composites for automotive braking applications. Polymer Composites 43:10, pages 7118-7129.
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Vishal Ahlawat, Praveen Tewatia, Sunil Nain, Raj Kumar, Sunil Kumar & Tej Singh. (2022) Thermal analysis and tribo‐performance evaluation of multilayered graphene and graphite based fly ash filled banana fiber reinforced brake friction composites. Polymer Composites 43:10, pages 6943-6954.
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Giovanna Gautier di Confiengo & Maria Giulia Faga. (2022) Ecological Transition in the Field of Brake Pad Manufacturing: An Overview of the Potential Green Constituents. Sustainability 14:5, pages 2508.
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Tej Singh. (2021) Utilization of cement bypass dust in the development of sustainable automotive brake friction composite materials. Arabian Journal of Chemistry 14:9, pages 103324.
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Y.K. Wu, B. Tang, Z.Y. Xiang, H.H. Qian, J.L. Mo & Z.R. Zhou. (2021) Brake squeal of a high-speed train for different friction block configurations. Applied Acoustics 171, pages 107540.
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S. S. Shirsath & R. N. Yerrawar. 2021. Advanced Manufacturing Systems and Innovative Product Design. Advanced Manufacturing Systems and Innovative Product Design 271 282 .
Prosenjit Ghosh, Kinsuk Naskar & Narayan Chandra Das. (2020) Influence of synthetic graphite powder on tribological and thermo-mechanical properties of organic-inorganic hybrid fiber reinforced elastomer-modified phenolic resin friction composites. Composites Part C: Open Access 2, pages 100018.
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Kaka Li, Zhanjian Liu, Chijia Wang, Weihao Fan, Fatang Liu, Haiyan Li, Yanji Zhu & Huaiyuan Wang. (2020) Preparation of smart coatings with self-healing and anti-wear properties by embedding PU-fly ash absorbing linseed oil microcapsules. Progress in Organic Coatings 145, pages 105668.
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Prosenjit Ghosh, Shib Shankar Banerjee & Dipak Khastgir. (2020) Elastomer modified phenolic resin‐based composites with reduced scale friction: Influence of calcined petroleum coke on tribological and thermo‐mechanical behavior . Polymer Engineering & Science 60:7, pages 1446-1458.
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Vishal Ahlawat, Sanjay Kajal & Parinam Anuradha. (2019) Tribo‐performance assessment of milled fly ash brake friction composites. Polymer Composites 41:2, pages 707-718.
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R. VIJAY, D. LENIN SINGARAVELU & PETER FILIP. (2019) INFLUENCE OF MOLYBDENUM DISULFIDE PARTICLE SIZE ON FRICTION AND WEAR CHARACTERISTICS OF NON-ASBESTOS-BASED COPPER-FREE BRAKE FRICTION COMPOSITES. Surface Review and Letters 27:01, pages 1950085.
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Sudhanraj Jeganmohan & Banu Sugozu. (2020) Usage of powder pinus brutia cone and colemanite combination in brake friction composites as friction modifier. Materials Today: Proceedings 27, pages 2072-2075.
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Banu SUGÖZÜ & İlker SUGÖZÜ. (2019) Investigation of Friction and Wear Behavior of Boron Carbide Reinforced Composite Materials. International Journal of Automotive Science and Technology 3:4, pages 71-76.
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Wang Zhen-Yu, Wang Jie, Cao Feng-Hong, Ma Yun-Hai, Tej Singh & Gusztáv Fekete. (2019) Influence of banana fiber on physicomechanical and tribological properties of phenolic based friction composites. Materials Research Express 6:7, pages 075103.
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Vishal Ahlawat, Sanjay Kajal & Anuradha Parinam. (2019) Exploring the suitability of milled fly ash for brake friction composites: characterization and tribo-performance. Materials Research Express 6:4, pages 045311.
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Naresh Kumar, Gusztáv Fekete, Tej Singh & J. S. Grewal. Natural fiber reinforced brake friction composites: Optimization using hybrid AHP-MOORA approach. Natural fiber reinforced brake friction composites: Optimization using hybrid AHP-MOORA approach.
Dinesh Shinde, Kishore N. Mistry, Suyog Jhavar & Sunil Pathak. (2018) A Review on Non-Asbestos Friction Materials: Material Composition and Manufacturing. Advanced Materials Research 1150, pages 22-42.
Crossref
Hüsamettin Kus, Gokhan Basar & Funda Kahraman. (2018) Modeling and optimization for fly ash reinforced bronze-based composite materials using multi objective Taguchi technique and regression analysis. Industrial Lubrication and Tribology 70:7, pages 1187-1192.
Crossref
Banu Sugözü. (2018) Tribological properties of brake friction materials containing fly ash. Industrial Lubrication and Tribology 70:5, pages 902-906.
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