Available in Museum’s Library.
Laser printing offers research opportunities in developing precise, energy-efficient, and eco-friendly laser technologies for intricate textile design and surface modification. It also enables exploration of functional and smart textile applications, such as creating durable patterns, perforations, or conductive pathways for wearable technology.

Available in Museum’s Library.
Digital printing presents research opportunities in developing eco-friendly inks, sustainable printing processes, and energy-efficient printers to reduce environmental impact. It also allows exploration of advanced fabric compatibility, high-resolution printing techniques, and integration with smart textiles for customized, functional, and high-performance apparel.

Available in Museum’s Library.
Afsan print presents research opportunities in analyzing the evolution of South Asian printed motifs and their adaptation into modern mass-produced textiles. Further studies can explore sustainable printing technologies, eco-friendly dyes, and digital printing methods to preserve traditional design aesthetics while reducing environmental impact in textile production.

Available in Museum’s Library.
Foil printing offers significant research opportunities in developing eco-friendly adhesives and sustainable metallic foils to reduce environmental impact while maintaining durability and brilliance. Additionally, studying heat-transfer optimization and adhesion on diverse fabrics can expand its applications in performance textiles, luxury fashion, and mixed-media textile art.

Available in Museum’s Library.
Screen printing offers research potential in ink rheology, mesh count optimization, and curing parameter control to enhance color vibrancy, adhesion strength, wash fastness, and production efficiency across different fabric compositions. It also enables investigation into eco-friendly ink systems, water reduction strategies, energy-efficient curing technologies, and automation integration to support sustainable and high-value textile manufacturing.

Available in Museum’s Library.
Puff printing presents research potential in ink formulation, heat-curing optimization, and expansion control to achieve consistent height, durability, and wash fastness on different fabrics. It also allows exploration of multi-layered 3D effects, eco-friendly puff inks, and combination with other surface techniques for value-added apparel and promotional textiles.

Available in Museum’s Library.
Flock printing offers research potential in fiber type, adhesive formulation, and application methods to enhance fiber adhesion, durability, and wash fastness on different fabrics. It also allows exploration of sustainable fibers, low-impact adhesives, electrostatic vs. mechanical flocking efficiency, and high-resolution patterning for value-added apparel and home textiles.

Available in Museum’s Library.
High-Density Print offers research opportunities in ink rheology, stencil thickness optimization, and curing parameter control to improve durability, wash fastness, and dimensional stability. It also enables comparative studies between high-build plastisol systems and alternative sustainable print technologies for value-added apparel manufacturing.