Research Article
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Year 2021, , 264 - 269, 30.12.2021
https://doi.org/10.36222/ejt.923954

Abstract

References

  • [1] Mallick, P., Fiber Reinforced composites, Department of Mechanical Engineering University of Michigan Deaborn, Michigan.(1993).
  • [2] Karaçay, E., Alp, E., Cabbar H.C., Boron Carbide Productionby Sol-Gel MethodandIts Characterization, Journal of the Faculty of Engineeringand Architecture of Gazi University, 27(2)(2012), pp. 417-428.
  • [3] Mazumdar, S. K., Composites Manufacturing Materials, Product, and Process Engineering, CRC Press, London, (2002),pp.20-39.
  • [4] Strong, A.B., “Fundamentals of Composites Manufacturing: Materials, Methods, and Applications, 2nd ed.”, SME, Michigan, (2008), pp.1-18.
  • [5] G. Navaneethakrishnan, T. Karthikeyan, S. Saravanan& V. Selvam , Influence of boron nitride on morphological, mechanical, thermal and wear characteristics of epoxy nano composites, Materials Research Innovations, 24:5(2020), pp.257-262.
  • [6]Vijayaraghavan V, Zhang L. Tensile and Interfacial Loading Characteristics of Boron Nitride-Carbon Nano sheet Reinforced Polymer Nano composites. Polymers. 11(6), (2019), pp. 1075.
  • [7] Rahmat, M.,Naftel, A., Ashrafi, B., Jakubinek, M.B., Martinez‐Rubi, Y. and Simard, B.,’Dynamic mechanical characterization of boron nitride nano tube—epoxy nano composites.’ ,Polym. Compos., 40(2019),pp. 2119-2131.
  • [8] Xiao Zhang and Jian Zheng, Polymer Composites with Enhanced Mechanical and Thermal Properties by Orientating Boron Nitride Flakes‘,2019 IOP Conf. Ser.: Mater. Sci. Eng. 493 012137.
  • [9] Burroughs B. R., Kim J. H., Blanchet T. A., Boric Acid Self-Lubrication of B2O3-FilledPolymerComposites, Tribology Transactions, 42(3)(1999), pp.592-600.
  • [10] Cavdar A. D.,Mengeloğlu F., Karakus K., Effect of Boric Acid and Borax on Mechanical, Fire and Thermal Properties of Wood Flour Filled High Density Polyethylene Composites, Measurement, 60(2015),pp. 6-12.
  • [11] Hou J.,Li G., Yang N., Qin L., Grami M. E., Zhang Q., Wang N., Qu X., Preparation and Characterization of Surface Modified Boron Nitride Epoxy Composites with Enhanced Thermal Conductivity, Royal Society of Chemistry, , 4(2014), pp. 44282-44290.
  • [12] Myshkin N. K., Petrokovets M. I., Kovalev A. V., Tribology of Polymers: Adhesion, Friction, Wear, and Mass-Transfer, Tribology International, 38(2005), pp. 910-921.
  • [13] Li D. X.,You Y. L., Deng X., Li W. J., Xie Y., Tribological Properties of Solid Lubricants Filled Glass Fiber Reinforced Polyamide 6 Composites, Materials and Design, 46(2013),pp. 809–815.
  • [14] Karatas E., Gul O., Karsli N. G., Yılmaz T., Synergetic Effect of Graphene Nano platelet, Carbon Fiber and Coupling Agent Addition on the Tribological, Mechanical and Thermal Properties of Polyamide 6,6 Composites, Composites PartB-Engineering, 163(2019),pp. 730-739.
  • [15] Scharf T. W.,Prasad S. V., Solid lubricants: a review, Journal of MaterialScience,48(2013),pp. 511–531.
  • [16] Pedrazzoli D, Pegoretti A, Kalaitzidou K. Synergistic effect of exfoliated graphite nano platelets and short glass fiber on the mechanical and interfacia lproperties of epoxy composites. Compos Sci Technol, 98( 2014), pp. 15–21.
  • [17] Yang SY, Lin WN, Huang YL, Tien HW, Wang JY, Ma CCM, Li SM, Wang YS.,Synergetic effects of graphene platelets and carbon nano tubes on the mechanical and thermal properties of epoxy composites. Carbon49(2011), pp. 793–803.
  • [18] Yang X, Wang Z, Xu M, Zhao R, Liu X. Dramatic mechanical and thermal increments of thermoplastic composites by multi-scale synergetic reinforcement: carbon fiber and graphe nano platelet. Mater Des44(2013), pp. 74–80.
  • [19] Brostow W.,Kovačević V., Vrsaljko D., Whitworth J., Tribology of Polymers and Polymer-Based Composites, Journal of Materials Education, 32(5-6)(2010),pp. 273-290.
  • [20] Dong H.,Bell T., State-of-the-Art Overview: Ion Beam Surface Modification of Polymers Towards Improving Tribological Properties, Surface Coating Technology,111(1999),pp. 29–40.
  • [21] Sinha S. K.,Briscoe B. J., Polymer Tribology, 1st ed., Imperial College Press,London, 2009.
  • [22] Karsli N. G., Demirkol S., Yilmaz T., Thermal Aging and Reinforcement Type Effects on the Tribological, Thermal, Thermo mechanical, Physical and Morphological Properties Of Poly (Ether Ether Ketone) Composites, Composites PartB, 88(2016), pp. 253-263.

Investigation of Mechanical And Tribological Properties of Boric Acid Reinforced Composite Plates

Year 2021, , 264 - 269, 30.12.2021
https://doi.org/10.36222/ejt.923954

Abstract

In this study, the mechanical and tribological properties of unidirectional glass fiber/polyester resin and unidirectional carbon fiber / polyester resin composite materials reinforced with boron particles have been investigated by experimental methods. Composite sheets were produced by hand lay-up method using polyester resin mixed with boroxide particles (H3BO3) with a specific gravity of 1.51 g/cm3 and a molecular weight of 61.83 g/mol, which were utilized as boron particles. As particle reinforcement, 1%, 5% and 10% boron oxide polyester resin mixture was obtained. The effects of particle reinforcement on mechanical and tribological properties were investigated. As a result of the experimental studies, it was determined that, due to the increase in the particle ratio, the wear resistance increased by between the ratios 5% and 50% in some samples compared to the samples not reinforced with boroxide particles and the tensile strength improved up to 32% in some samples.

References

  • [1] Mallick, P., Fiber Reinforced composites, Department of Mechanical Engineering University of Michigan Deaborn, Michigan.(1993).
  • [2] Karaçay, E., Alp, E., Cabbar H.C., Boron Carbide Productionby Sol-Gel MethodandIts Characterization, Journal of the Faculty of Engineeringand Architecture of Gazi University, 27(2)(2012), pp. 417-428.
  • [3] Mazumdar, S. K., Composites Manufacturing Materials, Product, and Process Engineering, CRC Press, London, (2002),pp.20-39.
  • [4] Strong, A.B., “Fundamentals of Composites Manufacturing: Materials, Methods, and Applications, 2nd ed.”, SME, Michigan, (2008), pp.1-18.
  • [5] G. Navaneethakrishnan, T. Karthikeyan, S. Saravanan& V. Selvam , Influence of boron nitride on morphological, mechanical, thermal and wear characteristics of epoxy nano composites, Materials Research Innovations, 24:5(2020), pp.257-262.
  • [6]Vijayaraghavan V, Zhang L. Tensile and Interfacial Loading Characteristics of Boron Nitride-Carbon Nano sheet Reinforced Polymer Nano composites. Polymers. 11(6), (2019), pp. 1075.
  • [7] Rahmat, M.,Naftel, A., Ashrafi, B., Jakubinek, M.B., Martinez‐Rubi, Y. and Simard, B.,’Dynamic mechanical characterization of boron nitride nano tube—epoxy nano composites.’ ,Polym. Compos., 40(2019),pp. 2119-2131.
  • [8] Xiao Zhang and Jian Zheng, Polymer Composites with Enhanced Mechanical and Thermal Properties by Orientating Boron Nitride Flakes‘,2019 IOP Conf. Ser.: Mater. Sci. Eng. 493 012137.
  • [9] Burroughs B. R., Kim J. H., Blanchet T. A., Boric Acid Self-Lubrication of B2O3-FilledPolymerComposites, Tribology Transactions, 42(3)(1999), pp.592-600.
  • [10] Cavdar A. D.,Mengeloğlu F., Karakus K., Effect of Boric Acid and Borax on Mechanical, Fire and Thermal Properties of Wood Flour Filled High Density Polyethylene Composites, Measurement, 60(2015),pp. 6-12.
  • [11] Hou J.,Li G., Yang N., Qin L., Grami M. E., Zhang Q., Wang N., Qu X., Preparation and Characterization of Surface Modified Boron Nitride Epoxy Composites with Enhanced Thermal Conductivity, Royal Society of Chemistry, , 4(2014), pp. 44282-44290.
  • [12] Myshkin N. K., Petrokovets M. I., Kovalev A. V., Tribology of Polymers: Adhesion, Friction, Wear, and Mass-Transfer, Tribology International, 38(2005), pp. 910-921.
  • [13] Li D. X.,You Y. L., Deng X., Li W. J., Xie Y., Tribological Properties of Solid Lubricants Filled Glass Fiber Reinforced Polyamide 6 Composites, Materials and Design, 46(2013),pp. 809–815.
  • [14] Karatas E., Gul O., Karsli N. G., Yılmaz T., Synergetic Effect of Graphene Nano platelet, Carbon Fiber and Coupling Agent Addition on the Tribological, Mechanical and Thermal Properties of Polyamide 6,6 Composites, Composites PartB-Engineering, 163(2019),pp. 730-739.
  • [15] Scharf T. W.,Prasad S. V., Solid lubricants: a review, Journal of MaterialScience,48(2013),pp. 511–531.
  • [16] Pedrazzoli D, Pegoretti A, Kalaitzidou K. Synergistic effect of exfoliated graphite nano platelets and short glass fiber on the mechanical and interfacia lproperties of epoxy composites. Compos Sci Technol, 98( 2014), pp. 15–21.
  • [17] Yang SY, Lin WN, Huang YL, Tien HW, Wang JY, Ma CCM, Li SM, Wang YS.,Synergetic effects of graphene platelets and carbon nano tubes on the mechanical and thermal properties of epoxy composites. Carbon49(2011), pp. 793–803.
  • [18] Yang X, Wang Z, Xu M, Zhao R, Liu X. Dramatic mechanical and thermal increments of thermoplastic composites by multi-scale synergetic reinforcement: carbon fiber and graphe nano platelet. Mater Des44(2013), pp. 74–80.
  • [19] Brostow W.,Kovačević V., Vrsaljko D., Whitworth J., Tribology of Polymers and Polymer-Based Composites, Journal of Materials Education, 32(5-6)(2010),pp. 273-290.
  • [20] Dong H.,Bell T., State-of-the-Art Overview: Ion Beam Surface Modification of Polymers Towards Improving Tribological Properties, Surface Coating Technology,111(1999),pp. 29–40.
  • [21] Sinha S. K.,Briscoe B. J., Polymer Tribology, 1st ed., Imperial College Press,London, 2009.
  • [22] Karsli N. G., Demirkol S., Yilmaz T., Thermal Aging and Reinforcement Type Effects on the Tribological, Thermal, Thermo mechanical, Physical and Morphological Properties Of Poly (Ether Ether Ketone) Composites, Composites PartB, 88(2016), pp. 253-263.
There are 22 citations in total.

Details

Primary Language English
Subjects Mechanical Engineering
Journal Section Research Article
Authors

Taner Aydın This is me 0000-0002-5616-7729

Kadir Turan 0000-0002-4065-9649

Nejat Yıldırım Sarı 0000-0002-2203-0716

Publication Date December 30, 2021
Published in Issue Year 2021

Cite

APA Aydın, T., Turan, K., & Sarı, N. Y. (2021). Investigation of Mechanical And Tribological Properties of Boric Acid Reinforced Composite Plates. European Journal of Technique (EJT), 11(2), 264-269. https://doi.org/10.36222/ejt.923954

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