Dr Ahmed Jalal Uddin

Dr Ahmed Jalal Uddin

Assistant Professor

Department of Yarn Engineering
Faculty of Textile Engineering



92 Shaheed Tajuddin Ahmed Avenue Tejgaon Industrial Area, Dhaka - 1208, Bangladesh

Education
Doctor of Engineering (2004) Shinshu University, Ueda, Nagano, Japan Master of Textile System Engineering (2001) with Excellent Grading (marks in between 80-100% in all subjects), Shinshu University, Ueda, Nagano, Japan Master of Textile Engineering (1999) with Distinction (around 80% marks) The Maharaja Sayajirao University, Baroda, Gujarat, India Bachelor of Science in Textile Technology (1994), with First Class and First Position, Dhaka University, Dhaka, Bangladesh Higher Secondary Certificate (1988), with 81% marks Cox’s Bazar Govt. College, Cox’s Bazar, Bangladesh Secondary School Certificate (1986), with 77% marks Cox’s Bazar Govt. High School, Cox’s Bazar, Bangladesh
Journal Publication

A sustainable approach to manufacture mélange yarn from waste jute fiber and pre-consumer cotton fabric waste using I-optimal mixture design

Potentiality of sustainable corn starch-based biocomposites reinforced with cotton filter waste of spinning mill

Investigation of the performance of okra fiber in woven fabric

Unusable cotton spinning mill waste: A viable source of raw material in paper making

Enhancing the quality of elastane-cotton core yarn by compact spinning

Recycled fibers from pre- and post-consumer textile waste as blend constituents in manufacturing 100% cotton yarns in ring spinning: A sustainable and eco-friendly approach

Low-bagging (growth) stretch denim yarn production by spinning optimization of cotton-wrapped dual-core elastane and T400 multifilament

Outstanding Reinforcing Effect of Highly Oriented Chitin Whiskers in PVA Nanocomposites

Green Nanocomposites: Polyvinyl Alcohol Reinforced with Extremely Oriented Cellulose Whiskers

Fabrication of High Strength PVA/SWCNT Composite Fibers by Gel Spinning

Characterization of the Poly(vinyl alcohol)/Cellulose Whisker Gel Spun Fibers

Utilization of Green Tea Extract Dispersant for SWCNT-reinforced Polymer Composites

Interfacial Interaction and Mechanical Properties of Chitin Whiskers/PVA Gel-spun Nanocomposite Fibers

Extremely Oriented Tunicin Whiskers in Poly(vinyl alcohol) Nanocomposites

Crystal Modulus of a New Semiaromatic Polyamide 9-T

Enhancing Mechanical Properties of Gel-Spun Polyvinyl Alcohol Fibers by Iodine Doping

Green Tea-aided Dispersion of SWCNTs in Non-water Media: Its Application for Extraordinary Reinforcement of Polymer Nanocomposites

A Novel Approach to Reduce Fibrillation of PVA Fibres Using Cellulose Whiskers

Preparation and Physical Properties of Regenerated Cellulose Fibres from Sugarcane Bagasse

Fabrication of Carbon Fibers from Electrospun Poly(vinyl alcohol) Nanofibers

Controlling the Mechanical Properties of Poly(L-lactide-e-caprolactone) Monofilament Sutures by an Acetone / Water Treatment

Influence of Moisture on the Viscoelastic Relaxations in Long Aliphatic Chain Contained Semi-aromatic Polyamide, (PA9-T) Fiber

Melt Spinning and Laser-Heated Drawing of a New Semi-Aromatic Polyamide, PA9-T Fiber

Hydration in a New Semiaromatic Polyamide PA9-T Observed by Humidity-Controlled Dynamic Viscoelastometry and WAXD

Drawing Behavior and Characteristics of Laser Drawn Polypropylene Fibers

Changes in the Mechanical Properties and Structure of Maximally Laser-Drawn PA9-T Fiber Accompanying Take-Up Velocity of Melt Spinning

Dry Jet-Wet Spinning of Bagasse/N-methylmorpholine-N-oxide Hydrate Solution and Physical Properties of Lyocell Fibres

Sustainable and cleaner production of elastic core-spun yarns for stretch denim with maximal utilization of recycled cotton extracted from pre-consumer fabric waste

Transforming melange fabric waste into mélange yarn employing compact, Siro, and compact-Siro spinning: A cleaner and sustainable strategy

Books

  1. Characterization of Textile Fibres”, Preview Publishers, Dhaka, 2014.
  2. Two chapters titled “Coating for Technical Textile Yarns” and “Novel Technical Textile Yarns” in the book, namely “Technical Textile Yarns, edited by R. Alagirusamy and A. Das, Woodhead Publishing Ltd, Cambridge, UK, 2010.

Doctor of Engineering (2004) Shinshu University, Ueda, Nagano, Japan Master of Textile System Engineering (2001) with Excellent Grading (marks in between 80-100% in all subjects), Shinshu University, Ueda, Nagano, Japan Master of Textile Engineering (1999) with Distinction (around 80% marks) The Maharaja Sayajirao University, Baroda, Gujarat, India Bachelor of Science in Textile Technology (1994), with First Class and First Position, Dhaka University, Dhaka, Bangladesh Higher Secondary Certificate (1988), with 81% marks Cox’s Bazar Govt. College, Cox’s Bazar, Bangladesh Secondary School Certificate (1986), with 77% marks Cox’s Bazar Govt. High School, Cox’s Bazar, Bangladesh

A sustainable approach to manufacture mélange yarn from waste jute fiber and pre-consumer cotton fabric waste using I-optimal mixture design

Potentiality of sustainable corn starch-based biocomposites reinforced with cotton filter waste of spinning mill

Investigation of the performance of okra fiber in woven fabric

Unusable cotton spinning mill waste: A viable source of raw material in paper making

Enhancing the quality of elastane-cotton core yarn by compact spinning

Recycled fibers from pre- and post-consumer textile waste as blend constituents in manufacturing 100% cotton yarns in ring spinning: A sustainable and eco-friendly approach

Low-bagging (growth) stretch denim yarn production by spinning optimization of cotton-wrapped dual-core elastane and T400 multifilament

Outstanding Reinforcing Effect of Highly Oriented Chitin Whiskers in PVA Nanocomposites

Green Nanocomposites: Polyvinyl Alcohol Reinforced with Extremely Oriented Cellulose Whiskers

Fabrication of High Strength PVA/SWCNT Composite Fibers by Gel Spinning

Characterization of the Poly(vinyl alcohol)/Cellulose Whisker Gel Spun Fibers

Utilization of Green Tea Extract Dispersant for SWCNT-reinforced Polymer Composites

Interfacial Interaction and Mechanical Properties of Chitin Whiskers/PVA Gel-spun Nanocomposite Fibers

Extremely Oriented Tunicin Whiskers in Poly(vinyl alcohol) Nanocomposites

Crystal Modulus of a New Semiaromatic Polyamide 9-T

Enhancing Mechanical Properties of Gel-Spun Polyvinyl Alcohol Fibers by Iodine Doping

Green Tea-aided Dispersion of SWCNTs in Non-water Media: Its Application for Extraordinary Reinforcement of Polymer Nanocomposites

A Novel Approach to Reduce Fibrillation of PVA Fibres Using Cellulose Whiskers

Preparation and Physical Properties of Regenerated Cellulose Fibres from Sugarcane Bagasse

Fabrication of Carbon Fibers from Electrospun Poly(vinyl alcohol) Nanofibers

Controlling the Mechanical Properties of Poly(L-lactide-e-caprolactone) Monofilament Sutures by an Acetone / Water Treatment

Influence of Moisture on the Viscoelastic Relaxations in Long Aliphatic Chain Contained Semi-aromatic Polyamide, (PA9-T) Fiber

Melt Spinning and Laser-Heated Drawing of a New Semi-Aromatic Polyamide, PA9-T Fiber

Hydration in a New Semiaromatic Polyamide PA9-T Observed by Humidity-Controlled Dynamic Viscoelastometry and WAXD

Drawing Behavior and Characteristics of Laser Drawn Polypropylene Fibers

Changes in the Mechanical Properties and Structure of Maximally Laser-Drawn PA9-T Fiber Accompanying Take-Up Velocity of Melt Spinning

Dry Jet-Wet Spinning of Bagasse/N-methylmorpholine-N-oxide Hydrate Solution and Physical Properties of Lyocell Fibres

Sustainable and cleaner production of elastic core-spun yarns for stretch denim with maximal utilization of recycled cotton extracted from pre-consumer fabric waste

Transforming melange fabric waste into mélange yarn employing compact, Siro, and compact-Siro spinning: A cleaner and sustainable strategy

  1. Characterization of Textile Fibres”, Preview Publishers, Dhaka, 2014.
  2. Two chapters titled “Coating for Technical Textile Yarns” and “Novel Technical Textile Yarns” in the book, namely “Technical Textile Yarns, edited by R. Alagirusamy and A. Das, Woodhead Publishing Ltd, Cambridge, UK, 2010.