The course will introduce the students to smart textiles in all their forms. An overview of smart textiles and the classification is first given. All different ways to create conductive textiles are presented, before moving on to textile sensors and actuators. Specific attention is given to polymers, SMA and microcapsules.  All types of applications are presented, specifically the smart protection. A basis of product design for smart textiles is given, and the students finish the course with a group project in which they create a prototype smart textile/garment.

Learning outcomes

By the end of this training course, the participants will be able to:

• Apply knowledge, concept and construction of smart fabrics and interactive garments.
• Analyse the influenced parameter for smart textiles fabrics and properties to meet the required applications.
• Discover environmentally friendly materials for producing smart textiles garment.
• Integrate the concept of smart textiles for health, safety or societal issues.

By the end of this training course, the participants will be able to:

• Classify Technical Textiles
• Identify and Select Fibres for Technical Textiles
• Have background on electrospinning
• Have in depth knowledge of applications: Automotive textiles, Composites, Industrial Textiles, Building Textiles, Geotextiles, Protective Textiles, Sports and Recreation
• Know basics of Clothing Comfort aspects 
• Have background in Coating and Laminating

The course will introduce the students to smart textiles in all their forms. An overview of smart textiles and the classification is first given. All different ways to create conductive textiles are presented, before moving on to textile sensors and actuators. Specific attention is given to polymers, SMA and microcapsules.  All types of applications are presented, specifically the smart protection. A basis of product design for smart textiles is given, and the students finish the course with a group project in which they create a prototype smart textile/garment.

Learning outcomes

By the end of this training course, the participants will be able to:

• Apply knowledge, concept and construction of smart fabrics and interactive garments.
• Analyse the influenced parameter for smart textiles fabrics and properties to meet the required applications.
• Discover environmentally friendly materials for producing smart textiles garment.
• Integrate the concept of smart textiles for health, safety or societal issues.

The course will introduce the students to various aspects of technical textiles including fibre properties, applications, and the functional properties of the end products in areas such as automotive, medical, industrial, protective clothing and engineering applications. Students will be able to understand the different functional end-uses of technical textiles other than apparel and clothing, and home furnishing items.

Learning outcomes

By the end of this training course, the participants will be able to:

• Classify Technical Textiles
• Identify and Select Fibres for Technical Textiles
• Have background on electrospinning
• Have in depth knowledge of applications: Automotive textiles, Composites, Industrial Textiles, Building Textiles, Geotextiles, Protective Textiles, Sports and Recreation
• Know basics of Clothing Comfort aspects
• Have background in Coating and Laminating

This course is a translated localized course with material as given in the Bachelor of Mechanical Engineering Technology of Universiti Tun Hussein Onn Malaysia . It is given here to give a localized overview of material that students are expected to learn.

• Know the concepts: advanced garment, smart textiles, smart materials, textile comfort, sensoring, data processing, actuation, storage, communication. For example; smart suits of the future; mechanical actuators, chemical actuator, release mechanism; colour change; electrotextiles; optical fibers; functional textiles; smart textiles
• Obtain and understanding of functional textile materials; obtain knowledge of smart and functional textile materials and structures and their basic materials, to convert classical devices into fiber-based structures

This course is part of the Bachelor of Textile Chemistry. The course will introduce the students to smart textiles in all their forms. A general introduction of smart textiles and the classification is first given. The key functions of smart materials are presented, after which textile ergonomics is covered. A broad range of application areas of smart textiles is presented: for sports, medicine, protection and creatives. Attention is given to product design and some specific materials are covered in more depth, such as microcapsules and adaptive polymers. The students finish the course with a group project in which they create a prototype smart textile/garment.

Learning outcomes

• Understanding the concepts of smart materials and smart textiles including the concepts of passive smart, active smart, very smart; evolution; sensoring, data processing, actuation, energy storage, and communication.
• Having a good knowledge about smart and functional textile materials and structures, their basic materials, and how to convert classical devices into fiber-based structures.
• Having sufficient knowledge and insight about the development of future of textile technology.
• Having a good knowledge and understanding about various basis of constructing smart materials and/or smart products: electronic-based and non-electronic-based (polymers, dyes, etc.)
• Having ability to construct an idea about making smart products or smart materials.

This course is part of the Bachelor of Textile Engineering. The course will introduce the students technical textiles. A general introduction is first given. The fibers for technical textiles and production processes are given in detail, with special attention to nonwoven fabrics, composites and electro-spinning.

Application areas are highlighted, such as protective textiles.

Learning outcomes

• Has an ability to apply the development of science and technology of technical textiles in the textile industry and daily life
• Understand the concept of fabric-making process on non-woven machines, characteristics and applications
• Understand the concept of composite textile, smart textile, textile comfort, protective textile, characteristic and applications

This course is a translated localized course with material as given in the Bachelor of ADVANCED GARMENT AND SMART CLOTHING of Politeknik STTT Bandung. It is given here to give a localized overview of material that students are expected to learn.

This course is a translated localized course with material as given in the Bachelor of SMART TEXTILES AND FASHIONABLE TECHNOLOGY of Politeknik STTT Bandung. It is given here to give a localized overview of material that students are expected to learn.

This course is a translated localized course with material as given in the Bachelor of TECHNICAL TEXTILES of Politeknik STTT Bandung. It is given here to give a localized overview of material that students are expected to learn.

The course Advanced Textiles is an optional course that opens for the third year Textile Craft students with 2 credits. In this course, students will learn about advanced textile materials which include an introduction of textile technology, the history of modern textile development, and textile innovation in several fields. The learning process is carried out through lectures and group discussions. Assessment will be conducted through assignments and exams at the middle and end of the semester.

Learning outcomes

• Able to distinguish between the latest types of textiles (smart textile, intelligent textile, advanced textile)
• Able to understand textile manufacturing technology and its applications.
• Able to explain the development of modern textiles
• Able to design creative concepts of advance textiles

Explorative Biodegradable Textiles is an elective course of 3 credits for third-year Crafts program study students majoring in Textiles. In this course, students will learn and explore concepts about biodegradable textiles. The learning methods include lectures, discussions, and conceptual projects.

Learning outcomes

• Able to process materials exploratively to fulfill the concepts.
• Able to design creative work concepts based on biodegradable textiles.
• Able to understand the concept, purpose, and function of biodegradable textiles.

Electronic Textiles is a 3-credit elective course for Craft students who choose the interest in Advanced Textile. Students learn techniques for processing electronical components by combining technological tools in building innovated textiles. It is a practical course that is conducted through hands-on practice, discussion, and project work. Assessments in this course are carried out through practical assignments, exams, and a final project by the end of the semester. All students enrolled in this course must follow the appointed safety guideline.

Learning outcomes

• Able to assemble and operate electronic devices in building craftworks. Able to process a combination of insulator material (fabric) and conductor (circuit). Able to process materials exploratively to fulfill designed concepts.
• Able to elaborate on different types of electronic devices and understand their work steps
• Able to design creative work concepts based on basic electronic knowledge

Pengetahuan Tekstil Lanjutan adalah mata kuliah pilihan yang dibuka untuk mahasiswa Kriya tahun ketiga dengan 2 kredit. Pada mata kuliah ini mahasiswa akan mempelajari mengetahui pengetahuan tekstil tingkat lanjut yang meliputi pengenalan teknologi tekstil, sejarah perkembangan tekstil modern, dan inovasi tekstil di beberapa bidang. Proses pembelajaran dilakukan melalui ceramah dan diskusi kelompok. Penilaian akan dilakukan melalui pemberian tugas dan ujian di tengah dan akhir semester.

Capaian:

1.       Mampu membedakan jenis tekstil terkini (smart textile, intelligent textile, advanced textile)

2.       Mampu menjelaskan perkembangan tekstil modern.

3.       Mampu memahami teknologi manufaktur tekstil dan aplikasinya.

4.       Mampu merancang konsep kreatif berbasis pengetahuan advance textile.

The course will introduce the students to smart textiles in all their forms. A general introduction of smart textiles and the classification is first given. The key functions of smart materials are presented. Attention is given to product design and specific materials are covered in more depth, such as microcapsules, smart and adaptive polymers, smart dyes, energy harvesting, and more. As application area of smart textiles protection is given. The students finish the course with a group project in which they create a prototype smart textile/garment.

Learning outcomes

• Know the concepts: passive smart, active smart, very smart; evolution; sensoring, data processing, actuation, storage, and communication. Knowledge of micro-encapsulation; shape memory material, electrotextiles, smart textiles.
• Obtain an understanding of functional textile materials; obtain knowledge of smart and functional textile materials and structures and their basic materials, to convert classical devices into fibre based structures.

The course will introduce the students to various aspects of technical textiles including fibre properties, applications, and the functional properties of the end products. Braiding, narrow width fabrics, and electrospinning are covered. As applications composites are covered in detail, as well as automotive textiles and non-wovens.

Learning outcomes

By the end of this training course, the participants will be able to:

·       Classify Technical Textiles

·       Identify and Select Fibres for Technical Textiles

·       Know production methods

·       Have background on electrospinning

·       Have in depth knowledge of applications: Automotive textiles, Composites, non-wovens

·       Have background in Coating, Laminating, plasma and nano tech

This course is a translated localized course with material as given in the Bachelor in Textile Engineering of BZU Bahauddin Zakariya University. It is given here to give a localized overview of material that students are expected to learn.

The course will introduce the students to various aspects of Geo-textiles including fibre properties, applications, and the functional properties of the end products in areas such as industrial textiles and building engineering. Coating, laminating, and nano-technology are also covered as methods to functionalize the textiles. The students finish the course with a group project.

Learning outcomes

By the end of this training course, the participants will be able to suggest clothing adaptations to add advanced protective elements.

The course will introduce the students to various aspects of Protective textiles including fibre properties, applications, and the functional properties of the end products in areas such as medical textiles and protective clothing. Coatings, heating elements, and ergonomy are also covered.   The students finish the course with a group project.

Learning outcomes

By the end of this training course, the participants will be able to suggest clothing adaptations to add advanced protective elements.

The course will introduce the students to smart textiles in all their forms. An overview of smart textiles and the classification is first given. All different ways to create conductive textiles are presented, before moving on to textile sensors and actuators. Specific attention is given to polymers, SMA and microcapsules.  All types of applications are presented, specifically the smart protection. A basis of product design for smart textiles is given, and the students finish the course with a group project in which they create a prototype smart textile/garment.

Learning outcomes

• Know the concepts: passive smart, active smart, very smart; evolution; sensoring, data processing, actuation, storage, and communication. Knowledge of micro-encapsulation; shape memory material, electrotextiles, smart textiles.
• Obtain an understanding of functional textile materials; obtain knowledge of smart and functional textile materials and structures and their basic materials, to convert classical devices into fibre based structures.

The course will introduce the students to various aspects of technical textiles including fibre properties, applications, and the functional properties of the end products in areas such as automotive, medical, industrial, protective clothing and engineering applications. Students will be able to understand the different functional end-uses of technical textiles other than apparel and clothing, and home furnishing items. The students finish the course with a group project.

Learning outcomes

By the end of this training course, the participants will be able to:

• Classify Technical Textiles
• Identify and Select Fibres for Technical Textiles
• Know production methods
• Have in depth knowledge of applications: Automotive textiles, Composites, Industrial Textiles, Building Textiles, Geotextiles, Protective Textiles, Sports and Recreation
• Know basics of smart textiles for geotextiles

The course will introduce the students to textile composites. They learn all practical aspects, the different forms (woven, knitted), the resins used.  The students finish the course with a group project.

Learning outcomes

By the end of this training course, the participants will be able to suggest where composites can replace other materials, and the optimal construction method for a specific use case.

This course is a translated localized course with material as given in the Bachelor of Technical Textiles of NED University of Engineering & Technology. It is given here to give a localized overview of material that students are expected to learn.