This work clearly demonstrates the effective utilization of industrial waste metal fiber to replace glass fiber loadingfor the development of hybrid glass/metal fiber reinforced polymer composites for marine applications. The presentcomposite is fabricated by vacuum assisted resin transfer modelling technique under controlled conditions by varying bothglass fiber and metal fiber in a desired percentage weight ratio. The fabricated hybrid composites are characterized byphysical (density and void content), mechanical (tensile strength, flexural strength, inter-laminar shear strength and impactstrength), thermomechanical analysis (storage modulus, loss modulus and damping factor), water absorption, thermalconductivity and thermo-gravimetric analysis respectively. The second part of this study mainly covers the simulationanalysis of both mechanical properties and the thermal conductivity of the hybrid polymer composites. This analysis mainlyhelps to understand the major causes affecting during experimental analysis along with finding the desired results bycomparing them with the experimental results. The last part of this analysis focuses on studying the composite defects duringmechanical characterization with the help of scanning electron microscope. Finally, adopted multicriteria decision-makingtechnique to optimize the process parameters by considering all the obtained experimental results to satisfy the proposedapplication specifically can be used for marine structure development.

1 G. Kretsis, 18 : 13-, 1987

2 Y. Swolfs, 67 : 181-, 2014

3 G. Marom, 13 : 1419-, 1978

4 A. Sharma, 42 : 881-, 2021

5 M. Choudhary, 40 : 4113-, 2019

6 S. Schmeer, 18 : 1-, 2009

7 D. Chen, 142 : 516-, 2019

8 M. T. Isa, 52 : 217-, 2013

9 V. Infante, 53 : 2593-, 2019

10 R. Thirumalai, 1029-, 2013

11 C. Stephen, 1-, 2020

12 M. Kalantari, 102 : 100-, 2016

13 N. Mohamed, 17 : 1-, 2017

14 P. Sahu, 241 : 112073-, 2020

15 M. V. Mousavi, 94 : 105393-, 2019

16 H. Ebrahimnezhad-Khaljiri, 234 : 1823-, 2020

17 A. Zegaoui, 31 : 719-, 2019

18 C. Dong, 37 : 450-, 2012

19 S. N. Kukureka, 32 : 107-, 1999

20 J. H. Song, 79 : 61-, 2015

21 K. S. Pandya, 32 : 4094-, 2011

22 R. C. T. S. Felipe, 174 : 106994-, 2019

23 P. Hung, 133 : 86-, 2018

24 S. Kumar, 32 : 2260-, 2011

25 V. Chinnasamy, 9 : 3158-, 2020

26 M. Sakthivel, 10 : 2643-, 2018

27 G. T. Truong, 137 : 103131-, 2019

28 D. K. Jesthi, 168 : 467-, 2019

29 A. Sharma, 70 : 1284-, 2018

30 M. Jawaid, 32 : 1014-, 2011

31 M. Choudhary, 42 : 753-, 2020

32 B. Beylergil, 59 : 4969-, 2020

33 F. L. Guo, 256 : 113098-, 2021

34 W. Ferdous, 1-, 2020

35 P. Agarwal, 38 : 285-, 2021

36 R. C. Progelhof, 16 : 615-, 1976

37 M. J. Pawar, 38 : 1335-, 2017

38 A. Sharma, 38 : 248-, 2021

39 P. S. Latha, 46 : 3-, 2015

40 F. Y. C. Boey, 9 : 363-, 1990

41 M. J. Pawar, 31 : 37-, 2016

42 P. Panda, 48 : 3073-, 2014

43 M. K. Gupta, 3 : 208-, 2015

44 A. I. Selmy, 32 : 267-, 2019

45 M. Suresh, 15 : 990-, 2012

46 D. Purslow, 17 : 289-, 1986

47 R. C. T. S. Felipe, 174 : 106994-, 2019

48 D. Purslow, 19 : 358-, 1988

49 A. I. Selmy, 43 : 1714-, 2012

50 W. Zhang, 4 : 113-, 2019

51 J. M. Ferreira, 25 : 1091-, 2006

52 Z. N. Azwa, 98 : 2752-, 2013

53 N. Saba, 106 : 149-, 2016

54 P. Ghosh, 64 : 2467-, 1997

55 M. M. Rahman, 94 : 2397-, 2012

56 M. Jawaid, 45 : 619-, 2013

57 D. Ray, 28 : 1537-, 2009

58 V. Pistor, 532 : 339-, 2012

59 S. Kumar, 46 : 7489-, 2011

60 Z. Zhang, 25 : 305-, 2012

61 P. Surya Nagendra, 4 : 9081-, 2017

62 T. Singh, 89 : 106614-, 2020

63 R. Chauhan, 134 : 360-, 2017

64 T. Singh, 9 : 1491-, 2020

65 M. Kumar, 51 : 1662-, 2020

66 M. Jawaid, "Woven hybrid biocomposites: Dynamic mechanical and thermal properties" Elsevier BV 43 (43): 288-293, 2012

67 J. Zhang, "Sustainable Automotive Technologies 2012" Springer 69-74, 2012

68 Muhammad Nabeel ; Muhammad Ali Nasir ; Mariyam Sattar ; Rizwan Ahmed Malik ; Meshal Alzaid ; Muhammad Shoaib Butt ; Mohsin Saleem ; Hussein Alrobei, "Numerical and experimental evaluation of the mechanical behavior of Kevlar/glass fiber reinforced epoxy hybrid composites" 대한기계학회 34 (34): 4613-4619, 2020

69 Ankush Sharma ; Mahavir Choudhary ; Pankaj Agarwal ; Shivam Joshi ; S.K. Biswas ; Amar Patnaik, "Mechanical, Thermal and Thermomechanical Properties of Sponge Iron Slag filled Needle-Punched Nonwoven Jute Epoxy Hybrid Composites" 한국섬유공학회 22 (22): 1082-1098, 2021

70 Caitlin O′Brien, "Mechanical Characteristics of Hybrid Composites with ±45° Glass and 0°/90° Stainless Steel Fibers" MDPI AG 11 (11): 1355-, 2018

71 Silvio Leonardo Valença, "Evaluation of the mechanical behavior of epoxy composite reinforced with Kevlar plain fabric and glass/Kevlar hybrid fabric" Elsevier BV 70 : 1-8, 2015

72 Sourabh Bhaskar, "Application of Hybrid AHP-TOPSIS Technique in Analyzing Material Performance of Silicon Carbide Ceramic Particulate Reinforced AA2024 Alloy Composite" Springer Science and Business Media LLC 12 (12): 1075-1084, 2019

73 Mahavir Choudhary ; Ankush Sharma ; Maheshwar Dwivedi ; Amar Patnaik, "A Comparative Study of the Physical, Mechanical and Thermomechanical Behavior of GFRP Composite Based on Fabrication Techniques" 한국섬유공학회 20 (20): 823-831, 2019