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    support@collegese.com
    +91 88943 57155
    Pune, Maharashtra, India

    Duration

    4 Years

    Textile Technology

    Government Girls Polytechnic Almora
    Duration
    4 Years
     Textile Technology UG OFFLINE

    Duration

    4 Years

    Textile Technology

    Government Girls Polytechnic Almora
    Duration
    Apply

    Fees

    ₹1,30,000

    Placement

    97.0%

    Avg Package

    ₹3,50,000

    Highest Package

    ₹6,20,000

    OverviewAdmissionsCurriculumFeesPlacements
    4 Years
    Textile Technology
    UG
    OFFLINE

    Fees

    ₹1,30,000

    Placement

    97.0%

    Avg Package

    ₹3,50,000

    Highest Package

    ₹6,20,000

    Seats

    150

    Students

    250

    ApplyCollege

    Seats

    150

    Students

    250

    Curriculum

    Curriculum Overview for Textile Technology at Govt Girls Polytechnic Almora

    Course Structure Across Semesters

    The curriculum for the Textile Technology program is meticulously designed to provide a balanced mix of theoretical knowledge and practical skills. The eight-semester structure ensures progressive learning, allowing students to build upon foundational concepts before advancing to specialized areas.

    Each semester includes core courses that form the backbone of the program, departmental electives that allow for specialization, science electives that broaden scientific understanding, and laboratory sessions that provide hands-on experience. This integrated approach ensures that students are well-prepared for both academic and professional challenges.

    Semester Course Code Course Title Credit Structure (L-T-P-C) Pre-requisites
    I TT101 Engineering Chemistry 3-1-0-4 -
    I TT102 Basic Electrical Engineering 3-1-0-4 -
    I TT103 Engineering Mechanics 3-1-0-4 -
    I TT104 Introduction to Textile Technology 3-1-0-4 -
    I TT105 Mathematics I 3-1-0-4 -
    I TT106 English for Technical Communication 3-1-0-4 -
    I TT107 Computer Programming 3-1-0-4 -
    I TT108 Workshop Practice 0-0-2-1 -
    II TT201 Engineering Physics 3-1-0-4 TT101
    II TT202 Mathematics II 3-1-0-4 TT105
    II TT203 Textile Fibers & Yarns 3-1-0-4 TT104
    II TT204 Mechanics of Materials 3-1-0-4 TT103
    II TT205 Electrical Machines & Drives 3-1-0-4 TT102
    II TT206 Environmental Studies 3-1-0-4 -
    II TT207 Basic Electronics 3-1-0-4 -
    III TT301 Textile Chemistry 3-1-0-4 TT101
    III TT302 Textile Testing & Quality Control 3-1-0-4 TT203
    III TT303 Weaving Technology 3-1-0-4 TT203
    III TT304 Knitting Technology 3-1-0-4 TT203
    III TT305 Industrial Engineering 3-1-0-4 TT204
    III TT306 Digital Electronics 3-1-0-4 TT207
    III TT307 Computer Applications in Textile 3-1-0-4 TT107
    IV TT401 Dyeing & Finishing Technology 3-1-0-4 TT301
    IV TT402 Textile Machinery & Maintenance 3-1-0-4 TT205
    IV TT403 Apparel Manufacturing 3-1-0-4 TT303
    IV TT404 Production Planning & Control 3-1-0-4 TT305
    IV TT405 Automation in Textile Industry 3-1-0-4 TT205
    IV TT406 Project Management 3-1-0-4 -
    V TT501 Sustainable Textiles 3-1-0-4 TT301
    V TT502 Smart Textiles & Wearables 3-1-0-4 TT401
    V TT503 Textile Polymer Science 3-1-0-4 TT301
    V TT504 Fiber Characterization Techniques 3-1-0-4 TT302
    V TT505 Research Methodology 3-1-0-4 -
    V TT506 Industrial Visits & Seminars 3-1-0-4 -
    V TT507 CAD/CAM in Textile Industry 3-1-0-4 TT307
    V TT508 Textile Entrepreneurship 3-1-0-4 -
    VI TT601 Advanced Textile Finishing 3-1-0-4 TT401
    VI TT602 Nanotechnology in Textiles 3-1-0-4 TT503
    VI TT603 Bio-based Textiles 3-1-0-4 TT501
    VI TT604 Textile Waste Management 3-1-0-4 TT501
    VI TT605 Quality Assurance & Standards 3-1-0-4 TT302
    VI TT606 Data Analytics in Textile Industry 3-1-0-4 TT505
    VI TT607 Textile Innovation & IP Management 3-1-0-4 -
    VII TT701 Mini Project I 0-0-4-2 -
    VII TT702 Textile Research & Development 3-1-0-4 TT505
    VII TT703 Advanced Dyeing Techniques 3-1-0-4 TT601
    VII TT704 Textile Market Analysis 3-1-0-4 -
    VII TT705 Supply Chain Management 3-1-0-4 -
    VIII TT801 Final Year Project / Thesis 0-0-8-6 -
    VIII TT802 Internship & Industry Exposure 0-0-4-2 -
    VIII TT803 Elective Course - Smart Textiles 3-1-0-4 -
    VIII TT804 Elective Course - Sustainable Textiles 3-1-0-4 -

    Advanced Departmental Electives

    The department offers several advanced elective courses designed to deepen student expertise in specialized areas of textile technology:

    • Advanced Polymer Science for Textiles: This course explores the structure-property relationships of polymers used in textile applications, including polymer synthesis, characterization techniques, and applications in smart textiles.
    • Bio-based Fibers & Materials: Focuses on natural fiber extraction, processing techniques, and sustainable alternatives to synthetic fibers, emphasizing environmental impact and industrial applications.
    • Nanotechnology in Textile Applications: Introduces nanomaterials and their integration into textile products, covering topics such as antimicrobial treatments, water resistance, and functional finishes.
    • Sustainable Dyeing & Finishing: Examines eco-friendly dyeing methods, waste minimization techniques, and regulatory compliance in the textile industry.
    • Textile Testing & Quality Assurance: Provides comprehensive knowledge of testing standards, quality control procedures, and statistical analysis in textile manufacturing.
    • Smart Textiles & Wearables: Explores integration of electronics into textiles for healthcare monitoring, sports performance tracking, and fashion technology.
    • Industrial Automation & Robotics: Covers automation principles, robotic systems, sensor technologies, and process optimization in textile manufacturing environments.
    • Digital Design & Manufacturing: Focuses on CAD/CAM software applications in textile design, computer-aided pattern making, and digital printing techniques.
    • Textile Entrepreneurship: Provides practical knowledge of starting and managing textile businesses, including business planning, marketing strategies, and financial management.
    • Research Methodology & Scientific Writing: Prepares students for advanced research through systematic literature review, hypothesis formulation, data analysis, and scientific communication.

    Project-Based Learning Philosophy

    The department's philosophy on project-based learning is centered around fostering innovation, problem-solving skills, and real-world application. Students engage in structured mini-projects throughout their academic journey, culminating in a comprehensive final-year thesis or capstone project.

    Mini-projects are typically undertaken in groups of 3-5 students and involve addressing specific challenges within the textile industry. These projects span various domains such as process optimization, sustainable production methods, quality improvement strategies, and emerging technologies in fabric development. Students are assigned mentors from faculty based on their interest areas and project requirements.

    The final-year thesis or capstone project is an intensive, individual endeavor that allows students to demonstrate mastery of advanced concepts and contribute original insights to the field. Projects are selected through a proposal process involving faculty mentorship, ensuring alignment with current industry trends and research opportunities.