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Development and Assessment of Polymeric Laminate blended composites Reinforced with Bi-Woven Aramidic Fiber

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Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In the present paper evaluates laminated aramidic bi-woven fibers reinforced in polyester-vinylester blended composites. The Duo polymers, polyester-vinylester were blended using in situ polymerization technique. Four planar layers were made simultaneously and keeping one over another and each layer make sure to be weighed off 15% were maintained in all layers with different orientations. Pre-assumed Layer-1(50/50) 50 %, 0º; Layer-2(35/35/30) 35 % 0º, 35 % +45º, 30 %,0; Layer-3 (25/50/25) 25 % 0º, 50% +45º, 25-45º; Layer-4 (25/25/25/25) (2 5% 0º, 25 % +45º, 25 % -45º, 25 % 90º). Tthe composite was prepared with the help of hand layup technique. Test ready specimens were the help of shearing machine in accordance with ASTM. It was observed that, polyester and vinylester had good miscibility makes combined solid material. Flexural strength, tensile strength was improved up to 3ed layer, decreases after, whereas flexural modulus and tensile modulus were linearly increased up to 4th layer. Thermal stability and glass transition temperature were also found satisfactory for all the laminated layers. Chemical resistance was good for the entire chemical except toluene.
Rocznik
Strony
99--110
Opis fizyczny
Bibliogr. 29 poz., rys., tab.
Twórcy
autor
  • Department of Mechanical Engineering, PBR Visvodaya Institute of Technology & Sciences, Kavali - 524201, Nellore Dist., Andhra Pradesh, India
  • Department of Mechanical Engineering, Jawaharlal Nehru Technological University, College of Engineering (Autonomous), Anantapur - 515002, Andhra Pradesh, India
Bibliografia
  • [1] Sreenivasulu S., Vijayakumar Reddy K., Varada Rajulu A., Ramachandra Reddy, Bull Pure Appl Sci 25C (2006) 137-142.
  • [2] John K., Venkata Naidu S., J Reinf Plast Compos 26 (2007) 373-376.
  • [3] Raghu K., Noorunnisa Khanam P., Venkata Naidu S., J Reinf Plast Compos 29(3) (2010) 343-345.
  • [4] Guduri B.R., Varada Rajulu A., J Appl Polym Sci 106 (2007) 3945-3951.
  • [5] Idicula Maries, Neelakantan N.R., Zachariah Oammen, Thomas Sabu, J Appl Polym Sci 96 (2005) 1699-1709.
  • [6] Idicula Maries, Joseph Kuruvilla, Thomas Sabu, J Reinf Plast Compos 29(1) (2010) 12-28.
  • [7] Khalil HPS Abdul, Kang CW, Khairul A, Ridzuan R, Adawi TO. The effect of different laminations on mechanical and physical properties of hybrid composites. J Reinf Plast Compos 2009;28:1123–8.
  • [8] ASTM D 543-87. Standard methods for evaluating the resistance of plastics to chemical reagents. Annual book of ASTM standards, 8(1). Philadelphia (PA): American Society for Testing and Materials; 1992.
  • [9] ASTM D 2734-94. Standard methods for void content of reinforced plastics. Annual book of ASTM standards, 8(2). Philadelphia (PA): American Society for Testing and Materials; 1997
  • [10] ASTM D 3039/D 3039M. Standard test method for tensile properties of polymer matrix composite materials. Annual book of ASTM standards, 8(1). Philadelphia (PA): American Society for Testing and Materials; 1997.
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  • [13] De Albuquerque AC, Joseph Kuruvilla, Hecker de Carvalho Laura, Almeida Jose Roberto Morais d’, Compos Sci Technol 60(6) (2002) 833-844.
  • [14] Mariatti J. Preliminary studies of woven thermoplastic composites. MSc thesis, Universiti Sains Malaysia.
  • [15] Park R., Jang J., Polym Test 16(6) (1997) 549-562.
  • [16] Thwe M. M., Liao K., Compos Sci Technol 63 (2003) 375-387.
  • [17] Aziz S.H., Ansell M.P., Compos Sci Technol 64(9) (2004) 1219-1230.
  • [18] Sreekala M.S., George J., Kumaran M.G., Thomas S., Compos Sci Technol 62 (2002) 339-353.
  • [19] Zweben C., J Mater Sci 12 (1977) 1325-1337.
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  • [21] Hargarter N., Friedrich K., Catsman P., Compos Sci Technol 46 (1993) 229-244.
  • [22] Fu S-Y., Lauke B., Composites: Part A 1998; 29 (1998) 631-641.
  • [23] Fu S-Y., Lauke B., Composites: Part A 29 (1998) 575-583.
  • [24] Mouritz K. Leong, I. Herszberg, Composites: Part A, 28(12) (1997) 979-991.
  • [25] B.S. Hayes, E.N. Gilbert, J.C. Seferis, Composites: Part A 31 (2000) 717-725.
  • [26] D.M. Issacand and O. Ishai, Engineering mechanics of composite materials, Oxford University Press, Oxford.
  • [27] S. Deng, L. Ye, Y.W. Mai, Composite Science and Technology 59 (1999) 1331-1339.
  • [28] K.M. Kaleemulla, B. Siddeswarappa, Journal of Reinforced Plastics and Composites 29(12) (2009).
  • [29] ASTM, Standard test method for tensile properties of polymer matrix composite materials, ASTM D3039, Annual Book of ASTM Standards, American Society for Testing and Materials, PA, 15(03) (2003).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e0bed4fc-c7ee-43fa-8ed8-d0002e8b76b4
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