CUET-PG Textile Engineering [MTQP12]Chapter Wise Most Expected Questions Answer [MCQ] With Solution

Textile Engineering [MTQP12] is one of the subjects included in the CUET-PG exam. The syllabus for Textile Engineering (MTQP12) covers a wide range of topics related to the field of Textile.The Question Paper which will have 75 questions All questions will be based on Subject-Specific Knowledge All questions are compulsory The Questions will be Bilingual (English/Hindi) the Chapters are like Textile Fibres,Yarn Manufacture,Fabric Manufacture,Textile Testing,Chemical Processing, In this Artcile Given all chapter Questions

CUET PG Textile Engineering [MTQP12] Chapter/Section Wise Questions [MCQ]

CUET PG Textile Engineering [MTQP12] Latest Syllabus

CUET PG Textile Engineering Syllabus The Question Paper which will have 75 questions All questions will be based on Subject-Specific Knowledge. All questions are compulsory The Question paper will be in English.

Section 1: Textile Fibres

• Classification of textile fibres; Essential features of fibre forming polymers; fine structures of naturalfibres like cotton, silk, wool,
• Introduction to bast fibres; Properties and applications of natural and man-made fibres including aramid, carbon, glass 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 glass transition and melting temperature; Polymerization of nylon-6, nylon66, poly (ethylene terephthalate), polyacrylonitrile and polypropylene fibre forming polymers; Melt spinning processes for PET, polyamide and polypropylene; Principles of wet spinning, Preparatio of spinning dope; 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 techniques.
• Fibres characterization techniques such as density, x-ray diffraction, birefringence, optical and electron microscopy such as SEM and TEM, Infrared spectroscopy, thermal characterization by differential scanning calorimetry (DSC), Dynamic mechanical analyser (DMA), TMA and thermogravimetric analysis (TGA); Structure and morphology of man-made fibres; Mechanical behaviour of textile fibres; Concept of moisture sorption of fibres; Influence of fibre structure on fibre properties.

Section 2: Yarn Manufacture

• Concept of yarn manufacturing and Yarn Properties, Principles of ginning; Principles of opening, cleaning and blending of fibres; Concept and description of modern blow room machines;
• Fundamentals of carding; Comparision between conventional and modern carding machine; Card setting; Card clothing; Carding defects and remedies, 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 forming machine ; Modern developments in simplex machine; Principles of drafting, twisting and cop building in ring
• spinning; Causes of end breakages in Ring Frame during yarn formation; Modern developments in ring spinning machine; Working principles of ring doubler and two-for-one twister; Concept of yarn twist, Relationship between single yarn twist and folded yarn twist; Principles of compact, rotor, airjet, air-vortex, friction, core, wrap and twistless spinning processes. Influence of fibre geometry, fibre
• configuration and fibre orientation in yarn; Fibre packing density of yarn; Yarn diameter; Yarn twist

Section 3: Fabric Manufacture

• Principles of yarn 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; Quality control during sizing process: different sized yarn drying systems, different techniques of warp yarn sizing: Sizing ingredients:
• 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; 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; Different types of rapier systems: 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 warpknitting 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 plainwoven fabric geometry, basic calculation of production, efficiency, yarn requirement, machinerequirement.

Section 4: 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 measurement;
• 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 by Classimat and Classifault system . 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. Contact angle measurement for water proofness and water repellence.

Section 5: 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

CUET-PG Textile Engineering [MTQP12] Exam Pattern

he CUET-PG exam pattern for Textile Engineering (MTQP12) has undergone a revision for the 2024 academic year. Here’s a breakdown of the key points:

Structure:

• Objective type only: The entire exam will consist of Multiple Choice Questions (MCQs).
• Total Questions: 75 MCQs
• Duration: 1 hour 45 minutes (105 minutes)
• Marks: 300 marks (4 marks for each correct answer)

Negative Marking:

• There is negative marking for incorrect answers.
• -1 mark will be deducted for every wrong answer.

Language:

• The question paper will be offered in English only.

Important Note:

• The General Test section, which used to be part of the CUET-PG exam pattern in previous years, has been removed. This means there are no longer questions on General Knowledge, Comprehension, or Reasoning.

Here are some resources that you might find helpful:

• Official CUET PG Syllabus：https://pgcuet.samarth.ac.in/index.php/site/syllabus

How to Prepare for CUET-PG Textile Engineering [MTQP12]

Here’s a roadmap to help you prepare for the CUET-PG Textile Engineering (MTQP12) exam:

1. Understand the Syllabus:

• Download and thoroughly review the official CUET PG syllabus for Textile Engineering (MTQP12) from the National Testing Agency (NTA)
• Identify the weightage for each topic to prioritize your studies.

2. Gather Study Materials:

• Textbooks: Standard textbooks on Textile Engineering will provide a strong foundation for the core concepts. Look for books that cover the specific topics mentioned in the syllabus.
• Reference Materials: Utilize online resources, research papers, and industry publications to gain in-depth knowledge and stay updated on advancements in the field.
• Previous Years’ Papers and Mock Tests: Practicing with previous years’ question papers and mock tests will familiarize you with the exam format, question styles, and difficulty level. Analyze your performance and identify areas needing improvement.

3. Develop a Study Plan:

• Create a realistic and well-structured study plan that allocates sufficient time for each topic based on its weightage and your understanding.
• Schedule regular study sessions and stick to your plan.
• Incorporate revision time to solidify your understanding of key concepts.

4. Focus on Building Strong Fundamentals:

• Ensure a clear understanding of the fundamental principles of Textile Engineering.
• Practice applying these principles to solve problems.

5. Refine Time Management Skills:

• Time management is crucial during the actual exam.
• Practice solving MCQs within the stipulated time frame during mock tests and previous years’ paper attempts.
• Develop strategies to avoid spending too much time on a single question.

Additional Tips:

• Form a Study Group: Discussing concepts and solving problems with peers can enhance understanding and improve recall.
• Stay Updated: Follow industry trends and advancements in Textile Engineering through relevant publications and news sources.
• Focus on Conceptual Clarity: Aim for a deep understanding of concepts rather than rote memorization.

Optional Resources:

• Consider enrolling in coaching classes or online courses offered by reputed institutions, but ensure the content aligns with the latest CUET-PG syllabus.
• Explore educational videos and tutorials on specific topics to gain a visual understanding.

Remember, consistency and focused preparation are key to success in the CUET-PG Textile Engineering (MTQP12) exam.

4 Month Study Plan for CUET-PG Textile Engineering [MTQP12]

This plan assumes you’re dedicating 2-3 hours daily for studying. Adjust the schedule based on your needs and pace.

Month 1: Foundation Building (1st Week – Revision, Weeks 2-4 – Core Concepts)

1. Week 1 (Revision): If you have a background in Textile Engineering, spend this week revising core concepts.
2. Weeks 2-4:
   • Focus: Build a strong foundation in all five sections of the syllabus: Textile Fibres, Yarn Manufacture, Fabric Manufacture, Textile Testing, and Chemical Processing.
   • Strategy:
     • Dedicate at least one week to each section.
     • Utilize standard textbooks and online resources to grasp fundamental concepts.
     • Take notes and create mind maps for better retention.

Resources:

• Standard Textbooks on Textile Engineering (align with the syllabus)
• Online resources
• Reference materials (articles, research papers)

Month 2: Deep Dive & Practice (Weeks 1-3 – Topic-wise Focus, Week 4 – Mock Tests)

1. Weeks 1-3: Deepen your understanding of each topic within the five sections.
   • Strategy:
     • Divide each section into smaller topics based on weightage (refer to official syllabus if available).
     • Focus on 2-3 topics per week, delving deeper into concepts and applications.
     • Solve problems from previous years’ papers and reference materials.
2. Week 4: Introduce mock tests.
   • Strategy:
     • Take 1-2 full-length mock tests under timed conditions.
     • Analyze your performance, identify strengths and weaknesses.

Resources:

• Previous Years’ Question Papers
• Mock Tests (available online or coaching institutes)
• Topic-specific reference materials

Month 3: Revision & Refinement (Weeks 1-2 – Revision, Weeks 3-4 – Advanced Concepts & Test Taking Strategies)

1. Weeks 1-2: Revise all the topics covered in the previous months.
   • Strategy:
     • Use your notes, mind maps, and textbooks for revision.
     • Focus on areas identified as weaknesses during mock tests.
2. Weeks 3-4:
   • Advanced Concepts: Briefly explore advanced topics that might hold weightage.
   • Test-Taking Strategies: Develop effective strategies for time management, tackling difficult questions, and avoiding negative marking.

Resources:

• Your prepared notes and mind maps
• Coaching institutes or online resources for advanced topics (optional)

Month 4: Practice & Peak Performance (Weeks 1-3 – Mock Tests & Analysis, Week 4 – Final Brush-up)

1. Weeks 1-3: Focus on maximizing mock test performance.
   • Strategy:
     • Take 3-4 full-length mock tests under timed conditions.
     • Analyze each test thoroughly, identify recurring mistakes, and address knowledge gaps.
     • Practice effective time management during tests.
2. Week 4: Final Brush-up.
   • Strategy:
     • Briefly revise key concepts and important formulas.
     • Maintain a positive and focused mindset.
     • Get a good night’s sleep before the exam.

Additional Tips:

• Throughout your preparation, form a study group (optional) for discussions and peer learning.
• Maintain a healthy balance between studying and taking breaks to avoid burnout.
• Stay updated on advancements in Textile Engineering through relevant publications.

Remember, consistency and focused practice are key to success. This plan is a guideline; adapt it to suit your learning style and pace. Best of luck for your CUET-PG Textile Engineering (MTQP12) exam!

Frequently Asked Questions CUET-PG Textile Engineering

1. What is the syllabus for CUET-PG Textile Engineering?

The syllabus covers a wide range of topics related to textiles, including:

• Textile Fibres: Classification, properties, and applications of natural and man-made fibres.
• Yarn Manufacture: Processes involved in yarn manufacturing, including spinning, winding, warping, and sizing.
• Fabric Manufacture: Weaving, knitting, non-woven fabric manufacturing.
• Textile Testing: Methods for testing the physical, chemical, and mechanical properties of textiles.
• Chemical Processing: Dyeing, printing, and finishing of textiles.

2. What is the exam pattern for CUET-PG Textile Engineering?

• Type: Entirely objective (Multiple Choice Questions – MCQs)
• Total Questions: 75 MCQs
• Duration: 1 hour 45 minutes (105 minutes)
• Marks: 300 marks (4 marks per correct answer)
• Negative Marking: -1 mark for every wrong answer.
• Language: English only.

3. How can I prepare for the CUET-PG Textile Engineering exam?

• Understand the syllabus: Download and thoroughly review the official CUET PG syllabus.
• Gather study materials: Textbooks, reference materials, previous years’ papers, and mock tests.
• Develop a study plan: Allocate sufficient time for each topic based on weightage.
• Focus on building strong fundamentals: Ensure a clear understanding of core concepts.
• Practice time management: Solve MCQs within the stipulated time frame during mock tests.
• Additional Tips: Consider a study group, stay updated on advancements in the field, and focus on conceptual clarity.

4. Where can I find resources to prepare for the exam?

• National Testing Agency (NTA) website: https://pgcuet.samarth.ac.in/index.php/site/syllabus for the syllabus.
• Standard Textbooks on Textile Engineering
• Online resources l
• Previous Years’ Question Papers
• Mock Tests (available online or coaching institutes)

5. Is there a specific study plan I can follow?

A 4-month study plan is outlined above to guide your preparation. Remember to adjust it based on your learning style and pace.