100 Innovative Project and Thesis Topics for Textile Engineering Students

100 Innovative Project and Thesis Topics for Textile Engineering Students

Noor Ahmed Raaz
Specialized in Apparel Manufacturing
Owner and Editor in chief Textile Merchandising
Asst. Prof., Department of Textile Engineering
Atish Dipankar University of Science & Technology
Email: mnnabi@adust.edu.bd

In the rapidly evolving field of Textile Engineering, innovation is the key to meeting the demands of a world increasingly conscious of sustainability, functionality, and advanced technology. With textiles being an integral part of daily life—from the clothes we wear to the fabrics used in various industries—the need for research and development in this field is more critical than ever. This article explores 100 potential project and thesis topics that could shape the future of textile engineering, focusing on sustainable practices, smart textiles, and cutting-edge manufacturing techniques.

These topics reflect the dynamic nature of the textile industry, which embraces sustainability and pushes the boundaries of what fabrics can do. Whether it’s through the development of eco-friendly dyes, the integration of nanotechnology, or the creation of high-performance textiles for specialized applications, these projects represent the forefront of textile innovation. By delving into these areas, aspiring textile engineers can contribute to advancements that address both current challenges and future needs. Here are 100 innovative project and thesis topics for textile engineering students.

1. Smart Textiles for Healthcare Applications
2. Development of Eco-friendly Dyes from Natural Sources
3. Impact of Fiber Blends on Fabric Strength
4. Sustainable Practices in Textile Manufacturing
5. Nanotechnology in Textile Finishing
6. Recycling Techniques for Polyester Fibers
7. Comparison of Bio-based vs. Synthetic Fibers
8. Analysis of Antimicrobial Properties in Medical Textiles
9. Waterless Dyeing Techniques for Cotton Fabrics
10. Optimization of Fabric Softening Processes
11. Development of Flame-retardant Textiles
12. Energy-efficient Dyeing Methods
13. Textile Waste Management: A Comparative Study
14. UV Protection in Outdoor Fabrics
15. Electrospinning of Nanofibers for Filtration
16. Performance of Recycled Polyester in Athletic Wear
17. Biodegradability of Textile Materials
18. Impact of Enzyme Treatments on Cotton Fabric
19. Sustainable Textile Coating Technologies
20. Innovations in Smart Wearable Textiles
21. Effect of Weaving Parameters on Fabric Aesthetics
22. Development of Breathable Fabrics for Sportswear
23. Textile Reinforced Composites in Construction
24. Analysis of Heat-resistant Fabrics
25. Application of 3D Printing in Textile Design
26. Effect of Fiber Fineness on Yarn Quality
27. Environmental Impact of Synthetic Dyes
28. Mechanical Properties of High-performance Textiles
29. Thermal Comfort in Winter Apparel
30. Use of Graphene in Textile Applications
31. Improving Textile Dye Fixation with Organic Binders
32. Circular Economy in the Textile Industry
33. Nonwoven Fabrics in Medical Applications
34. Dyeing Efficiency in Reactive Dyes
35. Enhancing Color Fastness in Cotton Fabrics
36. Advancements in Textile Spinning Technologies
37. Use of Microcapsules in Smart Fabrics
38. Sustainable Sourcing of Raw Materials
39. Impact of Pre-treatment Processes on Dye Uptake
40. Development of High-performance Technical Textiles
41. Microfiber Pollution in Aquatic Environments
42. Innovative Textile Designs Using Natural Dyes
43. Performance Analysis of Moisture-wicking Fabrics
44. Application of Artificial Intelligence in Textile Manufacturing
45. Impact of Textile Auxiliaries on the Dyeing Process
46. E-textiles for Remote Health Monitoring
47. Sustainable Textile Printing Technologies
48. Effects of Weft Density on Fabric Hand
49. Photodegradation of Textile Fibers
50. Advanced Textile Testing Methods
51. Optimization of Textile Sizing Processes
52. Comparison of Natural and Synthetic Textile Fibers
53. Development of Biodegradable Packaging Materials
54. Innovative Recycling Methods for Textile Waste
55. Electrostatic Properties of Synthetic Fabrics
56. Impact of Water Quality on the Dyeing Process
57. Sustainable Yarn Production Techniques
58. Textile Composites in Aerospace Applications
59. Development of Waterproof Breathable Fabrics
60. Smart Textiles in Fashion Design
61. Textile Wastewater Treatment Methods
62. Effect of Knit Structure on Fabric Performance
63. Development of Non-toxic Flame Retardants
64. Application of Biotechnology in Textile Processing
65. Evaluation of Fabric Comfort Properties
66. Biomimicry in Textile Engineering
67. Impact of Fiber Cross-section on Fabric Properties
68. Design and Analysis of E-textile Circuits
69. Sustainable Textile Manufacturing Technologies
70. Innovation in Sportswear Textile Design
71. Environmental Impact of Textile Production
72. Smart Fabrics for Thermal Regulation
73. Analysis of Weaving Faults and Remedies
74. Advanced Textile Recycling Techniques
75. Application of Phase Change Materials in Textiles
76. Sustainable Textile Finishing Processes
77. Impact of Garment Design on Fabric Consumption
78. Use of Natural Fibers in High-performance Textiles
79. Microencapsulation Techniques in Textiles
80. Development of Durable Water-repellent Fabrics
81. Innovations in Textile Fiber Spinning
82. Sustainable Textile Dyeing Practices
83. Performance Analysis of Protective Textiles
84. Application of Plasma Technology in Textile Finishing
85. Effects of Dyeing Parameters on Color Fastness
86. Development of Stretchable Electronics in Textiles
87. Sustainable Practices in Garment Manufacturing
88. Analysis of Air Permeability in Woven Fabrics
89. Impact of Textile Printing Techniques on Design
90. Thermal Insulation in Winter Wear
91. Innovative Solutions for Textile Waste Reduction
92. Development of Odor-resistant Fabrics
93. Effects of Heat Setting on Fabric Properties
94. Waterless Textile Processing Techniques
95. Role of Nanotechnology in Textile Engineering
96. Impact of Sustainable Practices on Textile Quality
97. Analysis of Fiber Degradation in Textiles
98. Innovative Textiles for Environmental Protection
99. Development of Smart Textiles for Military Applications
100. Evaluation of Sustainable Textile Fibers in Fashion

The topics outlined in this article span a diverse range of interests within textile engineering, from sustainable practices and smart textiles to innovative manufacturing processes. As the textile industry continues to evolve, these areas of study offer promising avenues for exploration and innovation. By focusing on these topics, students and researchers can play a pivotal role in driving advancements in textile technology, contributing to a more sustainable and technologically advanced future for the industry. Exploring these subjects will not only enhance our understanding of textile materials and processes but also pave the way for the development of next-generation textiles that meet the needs of a changing world.

Noor Ahmed Raaz

Founder & Editor of Textile Merchandising. He is an Assistant Professor and Chairman of the Textile Engineering Department of a Reputed University in Bangladesh. He has performed numerous Research Regarding Textile Engineering. He has also received two times “Research & Development Fellowship” from the Ministry of Science & Technology in Bangladesh. For any further queries, please contact email at raju.uttara105@gmail.com or WhatsApp at +8801673758271.