GATE 2025 Textile Engineering Fibre Syllabus PDF - Download GATE Textile Engineering Fibre Syllabus Topic wise

Updated By Rupsa on 13 Sep, 2024 14:48

IIT Roorkee has released the GATE 2025 syllabus PDF for all 30 papers. There have been no changes in the GATE syllabus 2025. Access the GATE syllabus 2025 PDF from this page.

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GATE 2025 Syllabus for TF

IIT Roorkee has published the GATE syllabus 2025 for Textile Engineering and Fibre Science (TF) on its official website at gate2025.iitr.ac.in. Aspirants can fidn the detailed GATE Textile Engineering and Fibre Science 2025 on this page. We have also provided the GATE 2025 TF syllabus pdf download link so that students can save a copy of the syllabus for future reference. The GATE 2025 Textile Engineering and Fibre Science syllabus is divided into five main sections: Textile Fibres, Yarn Manufacturing, Yarn Structure and Properties, Fabric Manufacturing, Structure and Properties, as well as Textile Testing and Chemical Processing. These sections are explained in detail in the syllabus. Engineering Mathematics and General Aptitude make up 13% and 15% of the exam weightage, respectively. The core subjects of the Textile Engineering syllabus will account for 72% of the total. To do well in the GATE 2025 exam, candidates should make sure to study and cover all the topics thoroughly and on time. Let us go through the complete GATE TF syllabus 2025, highlighting the key topics in the sections below.

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GATE Textile Engineering and Fibre Science 2025 Syllabus Topics

Checking the GATE 2025 Textile Engineering and Fibre Science syllabus before the exam is important because it helps you understand exactly what topics will be covered. Knowing the syllabus allows you to plan your study schedule effectively, focusing on the areas that will be asked in the exam. Here we have provided section-wise GATE TF 2025 syllabus topics and sub-topics to be studied for the exam. 

Section

Topics

Subtopics

Engineering Mathematics

Linear Algebra

Matrices and Determinants; Systems of linear equations; Eigen values and Eigen vectors.

Calculus

Limit, continuity and differentiability; Successive differentiation; Partial differentiation; Maxima and minima; Errors and approximations; Definite and improper integrals; Sequences and series; Test for convergence; Power series; Taylor series.

Differential Equations

First order linear and non-linear differential equations; Higher order linear differential equations with constant coefficients; Euler-Cauchy equation; Partial differential equations; Wave and heat equations; Laplace’s equation.

Probability and Statistics

Random variables; Poisson, binomial and normal distributions; Mean, mode, median, standard deviation; Confidence interval; Test of hypothesis; Correlation analysis; Regression analysis; Analysis of variance; Control charts.

Numerical Methods

Numerical solutions of linear and non-linear algebraic equations; Numerical integration by trapezoidal and Simpson’s rules; Single-step and multi-step numerical methods for differential equations.

Textile Engineering and Fibre Science

Textile Fibres

Classification of textile fibres; Essential requirements of fibre forming polymers; Gross and fine structures of natural fibres like cotton, wool, silk; Introduction to bast fibres; Properties and uses of natural and man-made fibres including carbon, aramid and ultra-high molecular weight polyethylene fibres; Physical and chemical methods of fibre and blend identification and blend analysis.

Molecular architecture, amorphous and crystalline phases, glass transition, plasticization, crystallization, melting, factors affecting Tg and Tm; Polymerization of nylon-6, nylon-66, poly (ethylene terephthalate), polyacrylonitrile and polypropylene; Melt spinning processes for PET, polyamide and polypropylene; Preparation of spinning dope; Principles of wet spinning, dry spinning, dry-jet-wet spinning and gel spinning; Spinning of acrylic, viscose and other regenerated cellulosic fibres such as polynosic and lyocell; Post spinning operations such as drawing, heat setting, tow-to-top conversion; Spin finish composition and applications; Different texturing methods.

Methods of investigating fibre structure such as density, x-ray diffraction, birefringence, optical and electron microscopy such as SEM and TEM, I.R. spectroscopy, thermal methods such as DSC, DMA, TMA and TGA; Structure and morphology of man-made fibres; Mechanical properties of fibres; Moisture sorption of fibres; Fibre structure-property correlation.

Yarn Manufacture, Yarn Structure and Properties

Principles of ginning; Principles of opening, cleaning and blending; Working principles of modern blow room machines; Fundamentals of carding; Conventional vs. modern carding machine; Card setting; Card clothing; Periodic mass variation in card sliver; Card auto leveller; Principles of roller drawing; Roller arrangements in drafting systems; Periodic mass variation in drawn sliver; Draw frame auto leveller; Principles of cotton combing; Combing cycle and mechanisms; Recent developments in combing machine; Principles of drafting, twisting, and bobbin building in roving formation; Modern developments in roving machine; Principles of drafting, twisting and cop building in ring spinning; Causes of end breakages; Modern developments in ring spinning machine; Working principles of ring doubler and two-for-one twister; Relationship between single yarn twist and folded yarn twist; Principles of compact, rotor, air-jet, air-vortex, friction, core, wrap and twist-less spinning processes.

Influence of fibre geometry, fibre configuration and fibre orientation in yarn; Fibre packing density of yarn; Yarn diameter; Yarn twist and its relation to yarn strength; Helical arrangement of fibres in yarns; Yarn contraction; Fibre migration in yarns; Stress-strain relation in yarn; Mass irregularity of yarn; Structure-property relationship in ring, compact, rotor, air-jet and friction spun yarns.

Fabric Manufacture, Structure and Properties

Principles of winding processes; Classification of winding methods; Patterning mechanism; Yarn clearers and tensioners; Different systems of yarn splicing; Warping objectives and classification; Different types of warping creels; Features of beam and sectional warping machines; Different sizing systems; Sizing of spun and filament yarns; Drawing-in process; Principles of pirn winding.

Primary and secondary motions of loom; Shedding motion; Positive and negative shedding mechanisms; Type of sheds; Tappet, dobby and jacquard shedding; Weft insertion; Mechanics of weft insertion with shuttle; Shuttle picking and checking; Beat-up; Kinematics of sley; Loom timing diagram; Cam designing; Effect of sley setting and cam profile on fabric formation; Take-up and Let-off motions; Warp and weft stop motions; Warp protection; Weft replenishment; Principles of weft insertion systems of shuttle-less weaving machines such as projectile, rapier, water-jet and air-jet; Principles of functioning of multiphase and circular looms; Types of selvedges.

Basic woven fabric constructions and their derivatives; Crepe, cord, terry, gauze, leno and double cloth constructions; Drawing and lifting plans. Fundamentals of weft knitting; Classification of weft knitting technologies; Weft knitted constructions such as plain, rib, interlock and purl; Different knit stitches such as loop, tuck and float. Principle of warp knitting; Classification of warp knitting technologies; Swinging and shogging motion of guide bar; Basic warp knit construction such as pillar, tricot, atlas, inlay and nets.

Fibre preparation processes for nonwovens; Web formation and bonding processes; Spun-bonding and melt-blowing technologies; Applications of nonwoven fabrics. Principles of braiding; Type of braids; Maypole braiding technology. Peirce’s equations for plain woven fabric geometry; Elastic a model of plain-woven fabric; Thickness, cover and maximum set of woven fabrics; Geometry of plain weft knitted loop; Munden’s constants and tightness factor for plain weft knitted fabrics; Geometry of tubular braids.

Textile Testing

Sampling techniques for fibres, yarns and fabrics; Sample size and sampling errors. Moisture in textiles; Fibre length, fineness, crimp, maturity and trash content; Tensile testing of fibres; High volume fibre testing. Linear density of sliver, roving and yarn; Twist and hairiness of yarn; Tensile testing of yarns; Evenness testing; Fault measurement and analysis of yarns. Fabric thickness, compressibility, stiffness, shear, drape, crease recovery, tear strength, bursting strength, pilling and abrasion resistance; Tensile testing of fabrics; Objective evaluation of low stress mechanical characteristics; Air permeability; Wetting and wicking; Water-vapour transmission through fabrics; Thermal resistance of fabrics.

Chemical Processing

Impurities in natural fibre; Singeing; Chemistry and practice of preparatory processes for cotton; Preparatory processing of wool and silk; Mercerization of cotton; Preparatory processes for manmade fibres and their blends; Optical brightening agent.

Classification of dyes; Dyeing of cotton, wool, silk, polyester, nylon and acrylic with appropriate classes of dyes; Dyeing of polyester/cotton and polyester/wool blends; Dyeing machines; Dyeing processes and machines for cotton knitted fabrics; Dye-fibre interaction; Introduction to thermodynamics and kinetics of dyeing; Brief idea about the relation between colour and chemical constitution; Beer-Lambert’s law; Kubelka-Munk theory and its application in colour measurement; Methods for determination of wash, light and rubbing fastness.

Methods of printing such as roller printing and screen printing; Preparation of printing paste; Various types of thickeners; Printing auxiliaries; Direct styles of printing of (i) cotton with reactive dyes, (ii) wool, silk, nylon with acid and metal complex dyes, (iii) polyester with disperse dyes; Resist and discharge printing of cotton, silk and polyester; Pigment printing; Transfer printing of polyester; Inkjet printing; Printing faults.

Mechanical finishing of cotton; Stiff, soft, wrinkle resistant, water repellent, flame retardant and enzyme (bio-polishing) finishing of cotton; Milling, decatizing and shrink resistant finishing of wool; Antistatic and soil release finishing; Heat setting of synthetic fabrics; Minimum application techniques. Pollution control and treatment of effluents.

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GATE TF Syllabus 2025 for General Aptitude

The General Aptitude section in the GATE exam is a common section for all GATE papers and typically carries 15% of the total marks. Preparing well for this section can help with some marks that can significantly improve your overall GATE score. The sections covered under GATE 2025 General Aptitude syllabus are Spatial Aptitude, Analytical Aptitude, Quantitative, and Verbal Aptitude. Check the complete GATE General Aptitude syllabus 2025 for Textile Engineering and Fibre Science paper:-

Section

Topics

Sub-Topics

Spatial Aptitude

Transformation of shapes

Translation, rotation, scaling, mirroring, assembling, grouping, paper folding, cutting, and patterns in 2 and 3 dimensions.

Analytical Aptitude

Logic

Deduction and induction, analogy, numerical relations, and reasoning.

Quantitative Aptitude

Data Interpretation

Data graphs (bar graphs, pie charts, other graphs representing data), 2- and 3-dimensional plots, maps, and tables.

Numerical Computation and Estimation

Ratios, percentages, powers, exponents, logarithms, permutations and combinations, and series.

Mensuration and Geometry

Basic concepts of mensuration and geometric shapes.

Elementary Statistics and Probability

Basic statistics concepts and probability.

Verbal Aptitude

Basic English Grammar

Tenses, articles, adjectives, prepositions, conjunctions, verb-noun agreement, and other parts of speech.

Basic Vocabulary

Understanding words, idioms, and phrases in context; reading and comprehension; narrative sequencing.

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GATE Textile Engineering and Fibre Science 2025 Syllabus PDF

Downloading the GATE Textile Engineering and Fibre Science 2025 syllabus PDF is very important for exam preparation. It gives students a clear list of all the topics they need to study, so they know exactly what to focus on. Having the GATE TF 2025 syllabus PDF makes it easy to view it  anytime. Download the link below to access the PDF.

GATE TF Syllabus 2025 PDF Download Link

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GATE Textile Engineering and Fibre Science 2025 Syllabus Important Topics

Knowing the important topics in the GATE 2025 Textile Engineering and Fibre Science syllabus can help students prepare smarter and not harder. Also learning and practicing the important topics can help them with short term preparation. Read on to know GATE Textile Engineering and Fibre Science 2025 syllabus important topics:

Engineering Mathematics

  1. Linear Algebra:
    • Eigenvalues and eigenvectors

    • Systems of linear equations

  2. Calculus:
    • Partial differentiation

    • Taylor series

    • Maxima and minima

  3. Differential Equations:
    • First-order linear differential equations

    • Higher-order linear differential equations with constant coefficients

  4. Probability and Statistics:
    • Normal, Poisson, and binomial distributions

    • Hypothesis testing

  5. Numerical Methods:
    • Numerical solutions of linear and non-linear equations

    • Numerical integration (Trapezoidal and Simpson’s rules)

Textile Engineering and Fibre Science

Section 1: Textile Fibres

  • Properties and uses of natural and man-made fibres.

  • Polymerization and spinning processes (melt, wet, and dry spinning).

  • Fibre structure-property correlation.

Section 2: Yarn Manufacture, Yarn Structure and Properties

  • Principles of carding, drawing, and combing.

  • Ring, rotor, air-jet, and friction spinning processes.

  • Yarn twist and its relation to yarn strength.

  • Mass irregularity and stress-strain relation in yarns.

Section 3: Fabric Manufacture, Structure and Properties

  • Primary and secondary motions of loom.

  • Shedding, picking, and beat-up mechanisms.

  • Weft insertion systems of shuttle-less weaving (projectile, rapier, air-jet).

  • Basic woven fabric constructions and their derivatives.

Section 4: Textile Testing

  • Tensile testing of fibres, yarns, and fabrics.

  • Yarn evenness and hairiness testing.

  • Fabric mechanical properties (thickness, stiffness, crease recovery).

Section 5: Chemical Processing

  • Dyeing of various fibres (cotton, wool, polyester).

  • Printing methods (roller, screen, and inkjet printing).

  • Mercerization and finishing of cotton (stiff, soft, wrinkle-resistant finishes).

  • Pollution control and effluent treatment in textile processing.

GATE Textile Engineering and Fibre Science 2025 Syllabus Topic-Wise Weightage (Expected)

Provided below is the expected topic-wise weightage for the Textile Engineering and Fibre Science syllabus 2025. The weightage distribution is based on the past year's paper patterns, so students must note that weightage may vary slightly in the actual exam.

Section

Topics

Expected Weightage (%)

Engineering Mathematics

Linear Algebra

5%

Calculus

8%

Differential Equations

7%

Probability and Statistics

5%

Numerical Methods

5%

Textile Engineering and Fibre Science

Section 1: Textile Fibres

15%

Section 2: Yarn Manufacture, Yarn Structure and Properties

20%

Section 3: Fabric Manufacture, Structure and Properties

20%

Section 4: Textile Testing

10%

Section 5: Chemical Processing

10%

How to Prepare for GATE Textile Engineering and Fibre Science Syllabus 2025

Preparation tips help students by providing a clear direction on where to start and how to organize their study time effectively. Find below some preparation tips for the GATE 2025 TF syllabus:

  • Review the GATE exam pattern to understand the number of questions, types of questions, and marking scheme.

  • Study the detailed syllabus for your specific discipline to ensure you cover all necessary topics.

  • Gather essential study materials including preparation books, sample papers, practice books, and previous year papers.

  • Create a structured study plan that allocates specific time for each subject and topic to ensure systematic coverage.

  • Practice solving problems regularly under timed conditions to develop both speed and accuracy.

  • Simulate exam conditions by taking full-length mock tests and GATE previous year question papers to manage time effectively.

  • At the start of the exam, spend a few minutes reviewing the entire paper and prioritize easier questions before tackling more difficult ones.

  • Carefully read instructions and questions to avoid misunderstandings and manage your time efficiently.

  • If you get stuck on a question, move on and return if time allows, and re-check your answers if possible to ensure accuracy.

Best Books for GATE TF Syllabus 2025

Check below some of the recommended books written by experts or experienced professors, offering reliable information and tips that are specifically useful for the GATE Textile Engineering and Fibre 2025 syllabus.

Book Title

Author(s)/ Publisher

Textile Engineering and Fiber Science

S.P. Sharma

Introduction to Textile Science

T.K. Roy

Textile Fiber Analysis

H.F. Markley & H.D. Markley

Fundamentals of Textile Engineering

K. V. S. Rao

Yarn Production Technology

R. M. Christian

Fabric Structure and Design

W. A. B. Schade

Textile Testing and Analysis

B. K. Agarwal

Textile Processing: Principles and Practice

S. K. Ghosh

Textile Fibers and Their Applications

M. L. Gulrajani

Chemical Processing of Textiles

V. K. Gupta

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