The acceleration of environmental pollution and global warming has resulted in increased environmental awareness and regulations to reduce carbon emissions. As the automotive industry is evolving from internal combustion engine (ICE) vehicles to electric vehicles (EVs) and urban air mobility (UAM), composites have gained attraction for increased driving range and green mobility. However, composites, acclaimed to be an alternative to metals for its reduced weight and high mechanical properties, have not achieved successful mass adoption due to the tradeoff in performance and cost. While legislation is continuously being updated to tackle environmental concerns, automotive original equipment manufacturers (OEMs) have been hesitant to apply composite technology to mainstream vehicles, largely due to economic reasons. Therefore, latest developments have been focused on application of biodegradable composites and integration of robotic automation into composite manufacturing processes for eco-friendly, sustainable, cost-effective production. This paper reviews the latest applications of composite materials into modern vehicles and evaluates state of the art of composite manufacturing and recycling processes for green mobility.

1 Vision Wheel., "http:// www. visio nwheel. com/"

2 Brockmann, W., "dhesive bonding: materials, applications and technology" John Wiley & Sons 2008

3 Goldsworthy, W., "Wiley Encyclopedia of Composites" 1-4, 2011

4 Garrow, L. A., "Urban air mobility : a comprehensive review and comparative analysis with autonomous and electric ground transportation for informing future research" 132 : 103377-, 2021

5 Ramirez-Tejeda, K., "Unsustainable wind turbine blade disposal practices in the United States : a case for policy intervention and technological innovation" 26 (26): 581-598, 2017

6 Malnati, P., "Under the hood: Thermoplastics tackle tough jobs"

7 Wagner, G., "Ultrasonic welding of aluminum alloys to fi ber reinforced polymers" 15 (15): 792-803, 2013

8 "Transport could burn up the EU’s entire carbon budget - International Council on Clean Transportation"

9 Jois, K. C., "Towpreg-based design and manufacture of multi-supply fi lament-wound composite pressure vessels" 2021

10 Yorseng, K., "Towards green composites : bioepoxy composites reinforced with bamboo/basalt/carbon fabrics" 363 : 132314-, 2022

11 Radhakrishnan, A., "Towards creating multi-matrix continuous fi bre polymer composites using an out-of-vacuum bag process"

12 Halley, P. J., "Thermosets" Elsevier 92-117, 2012

13 Biron, M., "Thermoplastics and thermoplastic composites" Elsevier 2018

14 Mahdavi, S., "Thermal cycling of outᒧofᒧautoclave thermosetting composite materials" Concordia University 2017

15 Hjellming, L. N., "Thermal curing cycles for composite cylinders with thick walls and thermoset resins" 23 (23): 1048-1064, 1989

16 Crump, D. A., "The manufacturing procedure for aerospace secondary sandwich structure panels" 12 (12): 421-447, 2010

17 Evens, T., "The infl uence of mechanical recycling on properties in injection molding of fi ber-reinforced polypropylene" 34 (34): 398-407, 2019

18 Dirk, H. -J. L., "The engineering aspects of automated prepreg layup : history, present and future" 43 (43): 997-1009, 2012

19 Colucci, G., "The eff ect of mechanical recycling on the microstructure and properties of PA66 composites reinforced with carbon fi bers" 132 (132): 2015

20 Mike, & Brady, P., "Technology developments in automotive composites" 54 (54): 25-29, 2010

21 Sloan, J., "Taking the hand out of hand layup"

22 Lukin, E., "Sustainability strategies and achieving sdgs : a comparative analysis of leading companies in the automotive industry" 14 (14): 4000-, 2022

23 Kishorre Annanth, V., "Study on alternative composites materials for automobile windshields" 2022

24 Murray, R. E., "Structural validation of a thermoplastic composite wind turbine blade with comparison to a thermoset composite blade" 164 : 1100-1107, 2021

25 Zhou, H., "Structural composite energy storage devices — a review" 24 : 100924-, 2022

26 Kim, D. -H., "Strain rate dependent mechanical behavior of glass fi ber reinforced polypropylene composites and its eff ect on the performance of automotive bumper beam structure" 166 : 483-496, 2019

27 Sloan, J., "Shelby GT350R features carbon fi ber wheels"

28 McConnell, V. P., "SMC has plenty of road to run in automotive applications" 51 (51): 20-25, 2007

29 Malnati, P., "Riding pretty: Hybrid upper control arms move to pickups"

30 Akampumuza, O., "Review of the applications of biocomposites in the automotive industry" 38 (38): 2553-2569, 2017

31 Zulkepli, I. I., "Review of manufacturing process for good quality of composite assessment" 488 : 012008-, 2019

32 "Resin infusion processes"

33 Frost, M., "Resin fi lm infusion process of carbon fi bre composite automotive body panels" 39 : 44-49, 2003

34 Gardiner, G., "Resin Infusion: Taking Off"

35 Yu, G., "Research on key issues of laser welding of dissimilar metal" 36 (36): 261-268, 2009

36 Yang Soo Yun ; Jae-Chul Kim, "Reducing Curve Squeal Noise Using Composite Materials Based on Experimental Investigation" 한국정밀공학회 22 (22): 1573-1582, 2021

37 Zhao, X., "Recycling of natural fi ber composites:challenges and opportunities" 177 : 105962-, 2022

38 Ginder, R. S., "Recycling of commercial E-glass reinforced thermoset composites via two temperature step pyrolysis to improve recovered fi ber tensile strength and failure strain" 4 (4): 24-, 2019

39 Nahil, M. A., "Recycling of carbon fi bre reinforced polymeric waste for the production of activated carbon fi bres" 91 (91): 67-75, 2011

40 Yuyan, L., "Recycling of carbon fi bre reinforced composites using water in subcritical conditions" 520 (520): 179-183, 2009

41 Mason, H., "Recycling end-of-life composite parts: New methods, markets"

42 López, F. A., "Recovery of carbon fi bres by the thermolysis and gasifi cation of waste prepreg" 104 : 675-683, 2013

43 Rajak, D. K., "Recent progress of reinforcement materials : a comprehensive overview of composite materials" 8 (8): 6354-6374, 2019

44 Sarfraz, M. S., "Recent developments in the manufacturing technologies of composite components and their cost-eff ectiveness in the automotive industry : a review study" 266 : 113864-, 2021

45 Sanyang, M. L., "Recent developments in sugar palm(Arenga pinnata)based biocomposites and their potential industrial applications : a review" 54 : 533-549, 2016

46 Salifu, S., "Recent development in the additive manufacturing of polymer-based composites for automotive structures—a review" 119 (119): 6877-6891, 2022

47 Pandey, J. K., "Recent advances in the application of natural fi ber based composites" 295 (295): 975-989, 2010

48 Ratna, D., "Recent advances and applications of thermoset resins" Elsevier 371-418, 2022

49 Jaewoo Seo ; Do Young Kim ; Dong Chan Kim ; Hyung Wook Park, "Recent Developments and Challenges on Machining of Carbon Fiber Reinforced Polymer Composite Laminates" 한국정밀공학회 22 (22): 2027-2044, 2021

50 Cunliff e, A., "Pyrolysis of composite plastic waste" 24 (24): 653-663, 2003

51 Gardiner, G., "Pultrusion picks up speed in automotive applications"

52 Huda, M. S., "Properties and Performance of natural-fi bre composites" Woodhead Publishing 221-268, 2008

53 Getu, D., "Production and characterization of bamboo and sisal fiber reinforced hybrid composite for interior automotive body application" 38 : 2853-2860, 2021

54 Vaidya, U., "Processing of fi bre reinforced thermoplastic composites" 53 (53): 185-218, 2008

55 Hamidi, Y. K., "Process induced defects in resin transfer molded composites"

56 Pandey, J. K., "Preparation and properties of cellulose-based nano composites of clay and polypropylene" 125 (125): E651-E660, 2012

57 Yi Jiang ; Mingwei Liang ; Weijing Wang ; Xuefei Lai ; Kenan Xie ; Li Liao ; Qin Long, "Porous Nano-Ni/Graphene/Loofah Composites for Electromagnetic Interference Shielding" 한국정밀공학회 9 (9): 1121-1132, 2022

58 Ali, N., "Polymer based bio-nanocomposites" Springer 237-253, 2022

59 Zhao, X., "Plastic waste upcycling toward a circular economy" 428 : 131928-, 2022

60 Hubert, P., "Out-of-autoclave prepreg processing" Elsevier 2018

61 Lukaszewicz, D. H. -J. A., "Optimisation of high-speed automated layup of thermoset carbon-fi bre preimpregnates" University of Bristol 2011

62 Johnson, W., "Observations from exploration of VTOL Urban Air Mobility Designs"

63 Gutowski, T., "Note on the rate and energy effi ciency limits for additive manufacturing" 21 (21): S69-S79, 2017

64 Schuck, I. M., "New processes for mass production of thermoplastic composite lightweight components" 2012

65 Granowicz, P., "New polymer SHIELD technology protects high-performance nylon and ppa polymers to replace more metal-for weight and cost savings-under the hood" 4 (4): 430-439, 2011

66 Manolis, S. L., "Natural fi bers : the new fashion in automotive plastics"

67 Huda, M. K., "Natural fi ber reinforced polymer in automotive application A systematic literature review" IOP Publishing 2021

68 Pejman, R., "Multi-physics design of a new battery packaging for electric vehicles utilizing multifunctional composites" 237 : 109810-, 2022

69 Åkesson, D., "Microwave pyrolysis as a method of recycling glass fi bre from used blades of wind turbines" 31 (31): 1136-1142, 2012

70 Pietroluongo, M., "Mechanical recycling of an endof-life automotive composite component" 23 : e00143-, 2020

71 Verma, D., "Mechanical and physical testing of biocomposites, fi brereinforced composites and hybrid composites" Elsevier 293-306, 2019

72 Cheol Kim ; Min-Gun Yun ; Sanghyeon Kim ; Gil-Woo Jeon, "Mathematical Model to Predict the Moduli of Wet-Laid Pulp/Fiber/Resin Composite Materials" 한국정밀공학회 23 (23): 1315-1324, 2022

73 Fentahun, M. A., "Materials used in automotive manufacture and material selection using ashby charts" 8 (8): 40-54, 2018

74 "Materials & Processes: Fabrication methods"

75 Vaneker, T., "Material extrusion of continuous fi ber reinforced plastics using commingled yarn" 66 : 317-322, 2017

76 Hubert, P., "Manufacturing techniques for polymer matrix composites (PMCs)" Elsevier 414-434, 2012

77 Perna, A. S., "Manufacturing of a metal matrix composite coating on a polymer matrix composite through cold gas dynamic spray technique" 28 (28): 3211-3219, 2019

78 Baskaran, M., "Manufacturing cost comparison of RTM, HP-RTM and CRTM for an automotive roof" 2014

79 Friedrich, K., "Manufacturing aspects of advanced polymer composites for automotive applications" 20 : 107-128, 2012

80 Karlsson, K. F., "Manufacturing and applications of structural sandwich components" 28 (28): 97-111, 1997

81 Davenport, D. E., "Low pressure resin transfer molding for cost eff ective aircraft quality structures"

82 Song, Y. S., "Life cycle energy analysis of fiber-reinforced composites" 40 (40): 1257-1265, 2009

83 Zhang, X., "Life cycle assessment of CFRP in application of automobile" 2011

84 José Eduardo Galve ; Daniel Elduque ; Carmelo Pina ; Carlos Javierre, "Life Cycle Assessment of a Plastic Part Injected with Recycled Polypropylene: A Comparison with Alternative Virgin Materials" 한국정밀공학회 9 (9): 919-932, 2022

85 Pramanik, A., "Joining of carbon fi bre reinforced polymer(CFRP)composites and aluminium alloys – a review" 101 : 1-29, 2017

86 Muhammad Yasir Khalid ; Zia Ullah Arif ; Ans Al Rashid, "Investigation of Tensile and Flexural Behavior of Green Composites along with their Impact Response at Different Energies" 한국정밀공학회 9 (9): 1399-1410, 2022

87 Rosenberg, P., "Investigating cavity pressure behavior in high-pressure RTM process variants" 2014

88 Mouritz, A. P., "Introduction to aerospace materials" Elsevier 2012

89 Schulze, A., "Introduction : knowledge generation and innovation diff usion in the global automotive industry—change and stability during turbulent times" 24 (24): 603-611, 2015

90 Malnati, P., "Interior innovation: The value proposition"

91 Mengdi Gao ; Lei Li ; Qingyang Wang ; Zhilin Ma ; Xinyu Li ; Zhifeng Liu, "Integration of Additive Manufacturing in Casting: Advances, Challenges, and Prospects" 한국정밀공학회 9 (9): 305-322, 2022

92 Meola, C., "Infrared thermography in the evaluation of aerospace composite materials: infrared thermography to composites" Woodhead Publishing 2016

93 Faudree, M. C., "Increasing impact strength of a short glass fi ber compression molded BMC by shortening fi bers without change in equipment" 15 (15): 1145-, 2022

94 Uozumi, T., "Improving fi lament winding productivity by multiple feeds" 2018

95 Karikalan, L., "Hybridization of composites using natural and synthetic fi bers for automotive application" 7 : 916-920, 2017

96 Cicala, G., "Hybrid composites manufactured by resin infusion with a fully recyclable bioepoxy resin" 132 : 69-76, 2018

97 Gardiner, G., "Hybrid carbon fi ber/aluminum suspension knuckle"

98 Calabro, M., "History of solid propellant rocket motors at Aerospatiale" 1992

99 Gardiner, G., "High-speed, 3D winding of large, complexshaped composites"

100 Xu, Y., "High-performance structural supercapacitors based on aligned discontinuous carbon fi ber electrodes and solid polymer electrolytes" 13 (13): 11774-11782, 2021

101 "High Performance Carbon Fiber Wheels. World First One-Piece Carbon Fiber"

102 Nehls, G., "Hexion partners with Rassini for composite leaf spring application in new Ford F-150 mode"

103 Pilla, S., "Handbook of bioplastics and biocomposites engineering applications" John Wiley & Sons 2011

104 Frost, S., "Global analysis of weight reduction strategies of major OEMs"

105 Huang, Y., "Friction stir welding/processing of polymers and polymer matrix composites" 105 : 235-257, 2018

106 Slattery, E., "Friction Lap Spot Joining of Aluminium Alloy 6082-T6 to Carbon Fibre-Reinforced Polyetheretherketone"

107 Dev, V. S., "Forming and modal analysis of sheet metal oil pan"

108 Sloan, J., "Ford assesses SMC/prepreg suspension knuckle to replace metal"

109 Du, R. K., "Flow simulation and optimization of the car bumper beam by VARTM process" 753 : 236-240, 2013

110 Gardiner, G., "Filament winding, reinvented"

111 Aurrekoetxea, J., "Failure of multimaterial fusion bonding interface generated during over-injection molding/thermoforming hybrid process" 102 (102): 261-265, 2006

112 Abhinay Mishra ; Abdul Rahim Ferhan ; Chee Meng Benjamin Ho ; Joohyun Lee ; Dong-Hwan Kim ; Young Jin Kim ; Yong-Jin Yoon, "Fabrication of Plasmon-Active Polymer-Nanoparticle Composites for Biosensing Applications" 한국정밀공학회 8 (8): 945-954, 2021

113 Sloan, J., "Evonik-led group targets epoxy SMC for EV battery housings"

114 "Every gram counts: BMW M Carbon Compound wheels"

115 Tol, R. S., "Europe’s climate target for 2050 : an assessment" 56 (56): 330-335, 2021

116 Thomas, C., "Epoxy composites containing CFRP powder wastes" 59 : 260-268, 2014

117 Kamil Krzywiński ; Łukasz Sadowski ; Damian Stefaniuk ; Aleksei Obrosov ; Sabine Weiß, "Engineering and Manufacturing Technology of Green Epoxy Resin Coatings Modified with Recycled Fine Aggregates" 한국정밀공학회 9 (9): 253-271, 2022

118 Howarth, J., "Energy intensity and environmental analysis of mechanical recycling of carbon fi bre composite" 81 : 46-50, 2014

119 Pandey, D., "Energized composites for electric vehicles: a dual function energy-storing supercapacitor-based carbon fi ber composite for the body panels" 18 (18): 2107053-, 2022

120 Pervaiz, M., "Emerging trends in automotive lightweighting through novel composite materials" 7 (7): 26-, 2016

121 Kumar, S., "Emerging composite material use in current electric vehicle: a review" 5 (5): 27946-27954, 2018

122 Wu, T., "Effi cient reclamation of carbon fi bers from epoxy composite waste through catalytic pyrolysis in molten ZnCl 2" 9 (9): 377-388, 2019

123 C. Tezara ; M. Zalinawati ; Januar Parlaungan Siregar ; J. Jaafar ; M. H. M. Hamdan ; A. N. Oumer ; K. H. Chuah, "Effect of Stacking Sequences, Fabric Orientations, and Chemical Treatment on the Mechanical Properties of Hybrid Woven Jute–Ramie Composites" 한국정밀공학회 9 (9): 273-285, 2022

124 Awais, H., "Eff ect of comingling techniques on mechanical properties of natural fi bre reinforced cross-ply thermoplastic composites" 177 : 107279-, 2019

125 Amaechi, C. V., "Economic aspects of fi ber reinforced polymer composite recycling"

126 Bhandari, B., "Development of CFRP precision gantry beams for 11th generation LCD panel manufacturing" 2011

127 Donald, A., "Development and characterization of aluminum matrix composites reinforced with carbonized coconut shell and silicon carbide particle for automobile piston application" 6 (6): 390-398, 2018

128 Abdalla, F., "Determination of volume fraction values of fi lament wound glass and carbon fi ber reinforced composites" 3 (3): 7-11, 2008

129 Mason, H., "Designing a versatile, multi-material EV battery enclosure"

130 Lee, C. -J., "Design of hole-clinching process for joining of dissimilar materials–Al6061-T4 alloy with DP780steel, hot-pressed 22MnB5 steel, and carbon fi ber reinforced plastic" 214 (214): 2169-2178, 2014

131 Dug-Joong Kim ; Jaeyoung Lim ; Byeunggun Nam ; Hee-June Kim ; 김학성, "Design and Manufacture of Automotive Hybrid Steel/Carbon Fiber Composite B-Pillar Component with High Crashworthiness" 한국정밀공학회 8 (8): 547-559, 2021

132 Suriani, M. J., "Delamination and manufacturing defects in natural fi ber-reinforced hybrid composite : a review" 13 (13): 1323-, 2021

133 Jochum, M., "Daimler Sustainability Report 2019" 2019

134 Dawson, D., "Curved pultrusion? No longer an oxymoron"

135 Oliveux, G., "Current status of recycling of fi bre reinforced polymers : review of technologies, reuse and resulting properties" 72 : 61-99, 2015

136 Zhang, J., "Current status of carbon fi bre and carbon fi bre composites recycling" 193 : 108053-, 2020

137 Elgowainy, A., "Current and future United States light-duty vehicle pathways : cradle-to-grave lifecycle greenhouse gas emissions and economic assessment" 52 (52): 2392-2399, 2018

138 Tanaka, K., "Cost-eff ective implementation of the Paris agreement using fl exible greenhouse gas metrics" 7 (7): 2021

139 Holmes, M., "Continued growth for European GRP market" 58 (58): 28-30, 2014

140 Hindersmann, A., "Confusion about infusion : an overview of infusion processes" 126 : 105583-, 2019

141 Lee, L. J., "Comprehensive polymer science and supplements" Pergamon 379-426, 1989

142 Mallick, P. K., "Comprehensive composite materials II" Elsevier 360-400, 2018

143 Malnati, P., "Composites-intensive masterwork: 2020 Corvette, Part 1"

144 Wong, K., "Composites recycling solutions for the aviation industry" 60 (60): 1291-1300, 2017

145 Mazumdar, S., "Composites manufacturing: materials, product, and process engineering" CRC Press 2001

146 Sloan, J., "Composites end markets: Automotive (2022)"

147 "Composites Market Size | Industry Report, 2021–2028"

148 Mason, K., "Composite output shaft ready for automotive proving ground"

149 Nagavally, R. R., "Composite materials-history, types, fabrication techniques, advantages, and applications" 5 (5): 82-87, 2017

150 Fleischer, J., "Composite materials parts manufacturing" 67 (67): 603-626, 2018

151 Krauklis, A. E., "Composite material recycling technology—state-of-the-art and sustainable development for the 2020s" 5 (5): 28-, 2021

152 "Composite and speciality materials for Urban Air Mobility"

153 Kim, H. J., "Composite Printer for Carbon/Epoxy Repair" Seoul National University 2020

154 Vita, A., "Comparative life cycle assessment of low-pressure RTM, compression RTM and high-pressure RTM manufacturing processes to produce CFRP car hoods" 80 : 352-357, 2019

155 Oliveux, G., "Chemical recycling of glass fi bre reinforced composites using subcritical water" 43 (43): 1809-1818, 2012

156 Piñero-Hernanz, R., "Chemical recycling of carbon fi bre composites using alcohols under subcritical and supercritical conditions" 46 (46): 83-92, 2008

157 DeMattia, N., "Chassis, CFRP & Suspension: 2016 BMW 7 Series"

158 Nehls, G., "Carbon fi ber automotive parts production industrialized via C-RTM process"

159 Starke, J., "Carbon composites in automotive structural applications"

160 Nakagawa, M., "CFRP recycling technology using depolymerization under ordinary pressure" 2014

161 Gardiner, G., "CAMISMA’s car seat back: Hybrid composite for high volume"

162 Rangappa, S. M., "Bioepoxy based hybrid composites from nano-fi llers of chicken feather and lignocellulose Ceiba Pentandra" 12 (12): 1-18, 2022

163 Winkler, M., "Automotive under-the-hood applications in vinyl ester resin SMC/BMC"

164 Greene, J. P., "Automotive plastics and composites" William Andrew Publishing 265-278, 2011

165 Zin, M. H., "Automated spray up process for pineapple leaf fi bre hybrid biocomposites" 177 : 107306-, 2019

166 Frketic, J., "Automated manufacturing and processing of fi ber-reinforced polymer(FRP)composites : An additive review of contemporary and modern techniques for advanced materials manufacturing" 14 : 69-86, 2017

167 Elkington, M. P., "Automated layup of sheet prepregs on complex moulds" 2016

168 Joshi, S. V., "Are natural fi ber composites environmentally superior to glass fi ber reinforced composites?" 35 (35): 371-376, 2004

169 Kim, Y. N., "Application of supercritical water for green recycling of epoxy-based carbon fi ber reinforced plastic" 173 : 66-72, 2019

170 Kang, M., "Analysis of vacuum bag resin transfer molding process" 32 (32): 1553-1560, 2001

171 Pandey, J. K., "An overview on the cellulose based conducting composites" 43 (43): 2822-2826, 2012

172 Loeliger, A., "An overview of automated manufacturing for composite materials" 2021

173 Van Oosterom, S., "An objective comparison of common vacuum assisted resin infusion processes" 125 : 105528-, 2019

174 Li, Y. -F., "An experimental study on mechanical behaviors of carbon fi ber and microwave-assisted pyrolysis recycled carbon fi ber-reinforced concrete" 13 (13): 6829-, 2021

175 Qing, X. P., "Advances in the development of built-in diagnostic system for fi lament wound composite structures" 66 (66): 1694-1702, 2006

176 Jiang, B., "Advances in joining technology of carbon fi ber-reinforced thermoplastic composite materials and aluminum alloys" 110 (110): 2631-2649, 2020

177 Mitschang, P., "Advanced materials in automotive engineering" Woodhead Publishing 210-229, 2012

178 Huang, S. H., "Additive manufacturing and its societal impact : a literature review" 67 (67): 1191-1203, 2013

179 Seok Kim ; Do Hyeog Kim ; Wonpyo Kim ; 조영태 ; Nicholas X. Fang, "Additive Manufacturing of Functional Microarchitected Reactors for Energy, Environmental, and Biological Applications" 한국정밀공학회 8 (8): 303-326, 2021

180 Sloan, J., "ATL & AFP : defi ning the megatrends in composite aerostructures" 16 (16): 68-, 2008

181 Lambiase, F., "A state-of-the-art review on advanced joining processes for metal-composite and metal-polymer hybrid structures" 14 (14): 1890-, 2021

182 Wang, J., "A self-piercing riveting method for joining of continuous carbon fi ber reinforced composite and aluminum alloy sheets" 259 : 113219-, 2021

183 Karuppannan Gopalraj, S., "A review on the recycling of waste carbon fi bre/glass fi bre-reinforced composites : fi bre recovery, properties and life-cycle analysis" 2 (2): 1-21, 2020

184 Puglia, D., "A review on natural fi bre-based composites—Part II" 1 (1): 23-65, 2005

185 Maggiore, S., "A review of structural adhesive joints in hybrid joining processes" 13 (13): 3961-, 2021

186 Midling, O. T., "A process model for friction welding of AlMgSi alloys and AlSiC metal matrix composites—I. Haz temperature and strain rate distribution" 42 (42): 1595-1609, 1994

187 Ricciardi, M., "A new cost-saving vacuum infusion process for fi ber-reinforced composites : pulsed infusion" 48 : 1365-1373, 2014

188 Dhoke, A., "A critical review on lightweight design of battery pack enclosure for electric vehicles" 4 (4): 53-62, 2021

189 Karuppannan Gopalraj, S., "A Study to investigate the mechanical properties of recycled carbon fi bre/glass fi bre-reinforced epoxy composites using a novel thermal recycling process" 8 (8): 954-, 2020

190 "2018 World Pultrusion Conference: full report"