Syllabi
Date:2013-05-11
Syllabi
Chemistry and Physics of Fibers
Subject Title:Chemistry and Physics of Fibers
Subject Type: degree course
Total Credit Hours: 72 lecture: 72 hours; laboratory: 0 hours
Credits:4.5
Applicants: undergraduate major in light industry and chemical engineering
1. ROLE AND PURPOSE
Chemistry and physics of fibers is a specialized basic course of light chemical engineering specialty. Based on polymer chemistry and polymer physics, the structure and properties of various textile fibers are studied. This course is composed of polymer chemistry, polymer physics and textile fibers. Through study of the course, students are required to be familiar with the basic concepts and principles of polymer chemistry and polymer physics and master the structure and application properties of common fibers. Chemistry and physics of fibers provides a basis for learning scouring and bleaching, dyeing, printing, finishing and other professional courses. The pre-requisite courses are organic chemistry, inorganic chemistry, physical chemistry, analytical chemistry and biochemistry.
2. LEARNING OUTCOMES
1) Master the basic concepts of polymer and the common types, characteristics and reaction rules of polymerization reaction. Understand the preparation method of chain polymerization and step reaction polymerization, the determination method and principle of molecular weight.
2) Master the structure level and flexibility of polymer, the concept of degree of crystallinity and the relationship with properties of polymer, the characteristics of molecular motion, the difference between the polymer solution with low molecular solution and the principle of the choice of solvent. Understand the structure model of high polymer aggregation, the mechanical properties of polymer, the rheological properties of polymer and the determination method for the structure and properties of polymer.
3) Master the representation method for fiber fineness, some problems related to moisture absorption and swelling, the physical quantities for mechanical properties of fiber, Understand the thermal properties, electrical properties, optical properties of the fibers.
4) Master the morphology, chemical structure and morphological structure of cellulose fibers, protein fibers and synthetic fibers. Understand the physical properties, chemical properties and dyeing properties of fibers.
3. INDICATIVE CONTENT AND TIME ALLOCATION
1)Polymer Chemistry(10 hours)
2)Polymer Physics(16 hours)
3)Pandect of Textile Fibers(8 hours)
4) Cellulose Fibers(10 hours)
5) Protein Fibers(8 hours)
6) Synthetic Fibers(16 hours)
7) Visiting(4 hours)
4. INDICATIVE READING
Recommended Textbook:CAI Zaisheng, Chemistry and Physics of Fibers, Beijing: China Textile Press, 2009
Supplementary: ZHAN Huaiyu. Chemistry and Physics of Fibers. Beijing: Science Press, 2005. PAN Zuren. Polymer Chemistry. Beijing: Chemical Industry Press, 2011. HE Manjun. Polymer Physics. Shanhai: Fu Dan University Press, 2008
Syllabus drafter: CUI Shuling;HU Xuemin
Syllabus approver: ZHANG Zhanzhu
Set date: Apr. ,2009
Process and principle of dyeing and finishing (Ⅰ)
Subject Title:Process and principle of dyeing and finishing (Ⅰ)
Subject type: compulsory course
Total Credit Hours: 40 lecture: 40 hours; laboratory: 0 hours
Credits: 2.5
Applicants:undergraduate major in dyeing and finishing technology
1. ROLE AND PURPOSE
2. LEARNING OUTCOMES
On successfully completing this course, students will be able to:
1) Master the principle of pretreatment, including desizing, scouring, bleaching, mercerizing and heat setting
2) Master the principle of finishing including mechanical finishing, chemical finishing, shrink proofing and wrinkle proofing
3) Know well processes of pretreatment and finishing of cotton fabrics
4) Learn novel products, novel process and novel technology applied in dyeing and finishing.
3. INDICATIVE CONTENT AND TIME ALLOCATION
Process and theory of textile pretreatment and finishing, including desizing, scouring, bleaching, mercerizing, heat setting, common finishing of fabrics, shrink proofing and wrinkle proofing.
1) Water and surfactant (6 hours)
2) Desizing and scouring of the cotton fabrics (4 hours)
3) Bleaching (6 hours)
4) Mercerizing (4 hours)
5) Heat setting (4 hours)
6) Common finishing of fabrics (4 hours)
7) Shrink proofing (4 hours)
8) Wrinkle proofing (8 hours)
4. INDICATIVE READING
Recommended Textbook: Yan Kelu. Theory of Dyeing and Finishing (volume one). Beijing: China Textile Press, 2009
Supplementary: 1.Wang Jusheng. Theory of Dyeing and Finishing (volume two). Beijing: China Textile Press, 1984; 2.Sun kai, Shen Ganqing. Theory of Dyeing and Finishing (volume two). Beijing: China Textile Press, 2008
Syllabus drafter: Du Jiangong
Syllabus approver: Zhang Zhanzhu
Set date: April, 2009
Process and Principle of Dyeing and Finishing (Ⅱ)
Subject Title: Process and Principle of Dyeing and Finishing (Ⅱ)
Subject Type: degree course
Total Credit Hours: 72 lecture: 72 hours; laboratory: 0 hours
Credit: 4.5
Applicants: undergraduate major in light industry and chemical engineering
1. ROLE AND PURPOSE
Process and Principle of Dyeing and Finishing II is the colored part of the course light industry and chemical engineering consisted of bleaching, dyeing, printing and finishing. This subject studies the principle and process of dyeing and printing related to the basic knowledge of thermodynamics, kinetics, rheology, dyes and fiber properties. It is a compulsory course for the major of light industry and chemical engineering in higher textile college. The purpose of this subject is to make students to learn and master the basic theory, basic concepts of dyeing and printing, process conditions, process prescription of dyeing and printing of all kinds of dyes and understand many factors affecting the quality of dyeing and printing products. The advanced nature of this course is to stand in the forefront of international dyeing and printing technology and timely introduce trends, new technology and new products of international and domestic dyeing and printing technology to the students in order to make students to keep along with the development of the world. In the teaching process, teachers pay more attention to training the students' ability to discover problems, analyze problems and solve the problems. This course is characterized by both a deep theoretical discussion and a wide expertise, in order to train talents of advanced research and application ability for textile industry with the innovative thinking and practical ability.
2. LEARNING OUTCOMES
Students are required to learn and master the basic theory, basic concepts of dyeing and printing, principle, process flow, process conditions, prescriptions of dyeing and printing of all kinds of dyes, and understand the technology development trends and new hot spots of dyeing and printing at home and abroad. The ability to analyze and solve problems should be cultivated and improved which make the foundation of future working for research and development of textile dyeing and finishing and garment industry after graduation.
3. INDICATIVE CONTENT AND TIME ALLOCATION
The first part: dyeing
1 Introduction (2 hours)
2 Basic principle of dyeing (20 hours)
3 Dyeing with direct dyes (4 hours)
4 Dyeing with reactive dyes (8 hours)
5 Dyeing with vat dyes (6 hours)
6 Dyeing with insoluble azo dyes and sulfur dyes (2 hours)
7 Dyeing with disperse dyes (4 hours)
8 Dyeing with cationic dyes(4 hours)
9 Dyeing with acid dyes and acid mordant dyes (2 hours)
The second part : printing
1 Introduction (2 hours)
2 Cylinder engraving and screen making (2 hours)
3 Printing paste (4 hours)
4 Printing with pigment (2 hours)
5 Direct printing with reactive dyes (1 hours)
6 Direct printing with insoluble azo dyes (1 hours)
7 Printing of synthetic fibers (2 hours)
8 Discharge printing, resist printing, special printing and new technologies of printing (2 hours)
9 Review (2 hours)
10 Examinations (2 hours)
4. INDICATIVE READING
Recommended Textbook: ZHAO Tao. Process and Principle of Dyeing and Finishing(Ⅱ). China Textile Press, 2009
Supplementary: WANG Jusheng. Process and Principle of Dyeing and Finishing(III, IV). China Textile Press.
Syllabus drafter: ZHANG Haiyan
Syllabus approver: ZHANG Zhanzhu
Set date: Apr. ,2009
Functional Finish of Textiles
Subject Title:Functional finish of textile
Subject type: compulsory course
Total Credit Hours: 32 lecture: 32 hours; laboratory: 0 hours
Credits: 2.0
Applicants: undergraduate major in light industry and chemical engineering
1. ROLE AND PURPOSE
Textile functional finishing as a professional compulsory course is opened to expand students' knowledge. The purpose of this course is to further study textile finishing knowledge of new technology on the basis of the general finishing knowledge and to understand the basic principles and characteristics of recent development and application of textile finishing functions, performance and process of auxiliary used. Students are supposed to master the finishing technology, apply these techniques to the production practice, and enhance practice ability and creative spirit in the future work as soon as possible. The pre-requisite courses needed are Inorganic Chemistry, Analytical Chemistry, Organic Chemistry, Physical Chemistry, Dyestuff Chemistry, Fiber Chemistry, Fabric Dyeing and Finishing Technology etc. before learning this course.
2. LEARNING OUTCOMES
1) Understand the meaning and content of the functional finishing , and know the significance of this course.
2) Grasp the difference of waterproof and water repellent, and grasp the relationship between water repellent principle and the structure of water repellent agent. Be familiar with the structure and application characteristics of several water repellent agent used commonly. Master the basic concepts of oil repellant finishing and the principle of oil repellent and soil-release. Be familiar with the commonly used oil repellent finishing agent structure and finishing process. Know the amphipathic structure of oil repellant finishing agent and repellant finishing principle.
3) Master the mechanism of waterproof and moisture permeability. Understand the production of waterproof and moisture permeable fabric.
4) Master some terms about flame retardant finishing. Understand the combustion properties and thermal effect on the fiber. Master all kinds of flame retardant and resistance smoldering mechanism. Be familiar with the method of producing the flame retardant fiber and flame retardant fabric. Understand the flame retardant technology and process of commonly used flame retardant.
5) Understand the development of antibacterial deodorant finishing. Be familiar with all kinds of pathogens and sterilizing method and the structure, performance and process of finishing agent commonly used. Understand antimicrobial test methods, the reason for producing odor and the method of deodorant finishing.
6) Understand the reasons for textile mold erosion. Be familiar with the structure, properties and the effect of the commonly used antiseptic mildew-proof agent. Understand the reasons for fabric infected by moth and the structure, performance of common moth-proof finishing agent.
7) Understand the electrostatic formation and hazards. Be familiar with the measure method of electrostatic size. Grasp the characteristics and principles of antistatic agent. Understand the antistatic finishing method.
8) Understand the harm of ultraviolet radiation on the human body, and influence factor of anti-UV fabric. Master the methods and mechanism of anti-UV finishing. Be familiar with the structure and consolidation characteristics of common ultraviolet absorbent and shielding agent. Grasp the method and process of anti-UV finishing. Understand the measurement method of anti-UV finishing test effect.
9)Understood the mechanism of far infrared warm clothing, far infrared fiber and textile production technology.
10) Understand the principle of electromagnetic wave shielding. Understand electromagnetic wave shielding fiber and fabric production method.
11) Understand the classification and the role of health care medical fiber and fabric.
3. INDICATIVE CONTENT AND TIME ALLOCATION
1) Introduction (2 hours)
2) Water and oil repellent finishing (4 hours)
(1)Summary
(2)Water and oil repellent principle
(3)Production of water and oil repellent textile
(4)Water and oil repellent performance test
(5)Applications of other water and oil repellent textile
3) Waterproof and breathable finishing (2 hours)
(1)Principle of waterproof and moisture permeability
(2)Production of waterproof and moisture permeable fabric
4)The flame retardant finishing (8 hours)
(1)Fiber combustion
(2)Theory of flame retardant
(3)Fire retardant
(4)Production of flame retardant fiber
(5)The flame retardant finishing of fabric
5)Antibacterial deodorant finishing (4 hours)
(1)The antibacterial finishing
(2)Deodorant finishing
6)Mildew proof and mothproof finish (2 hours)
(1)Mildew resistant finishing
(2)Mothproof finishing
7) Antistatic finishing (2 hours)
8) Anti-UV finishing (2 hours)
9) Far infrared fiber and textile (2 hours)
10) Electromagnetic wave shielding fiber and textile (2 hours)
11) Medical and health function of fiber and textile (2 hours)
4. INDICATIVE READING
Recommended Textbook:Ping Zhu. Functional Fiber and Functional Textiles. Beijing: China textile university press, 2006
Supplementary:①DigengXue . Fabric Function. Beijing: China Textile University Press, 2000,②Xinyuan Song, YuShen.New Dyeing and Finishing Technology. Beijing: China Textile University Press, 1999,?Journals:Printing andDyeing, Printing and Dyeing Auxiliaries, Dyeing and Finishing Technology.
Syllabus drafter: ZHU junping
Syllabus approver: CUI Shuling
Set date: Apr. ,2009
Professional English for Light Industry and Chemical Engineering
Subject Title:Professional English for light industry and chemical engineering
Subject Type: compulsory course
Total Credit Hours: 64 lecture: 64 hours; laboratory: 0 hours
Credit: 4
Applicants: undergraduate major in light industry and chemical engineering
1. ROLE AND PURPOSE
The professional English for dyeing and finishing engineering is a compulsory course for undergraduates majoring in light industry and chemical engineering. Students are supposed to have finished college English and some of major courses before studying this course. Through the studying of this course, students are required to grasp the characteristics of general technology English as well as the major English, be familiar with the translation skills, understand the methods of reading and writing scientific papers, enlarge the vocabulary of professional English, and improve the professional English listening and speaking skills so as to be able to know quickly and accurately the overseas tendency in the relative field and enhance the communication ability.
2. LEARNING OUTCOMES
Students should be able to achieve the following basic requirements by the end of this course:
1) Expand about 1000 new words about chemical and specialized English.
2) Read and understand the English materials about the major correctly with reading speed 50 words per minute and correct comprehension not less than 70%.
3) Could do English-Chinese and Chinese-English mutual translation with a dictionary, and the written translation speed is not less than 300 words per hour.
4) Could write professional English papers and abstract.
5) Improve English listening and speaking ability, and use oral English for simple communication.
3. INDICATIVE CONTENT AND TIME ALLOCATION
1) Translation skills in science & technology English (2 hours)
2) English writing for scientific paper and abstract (2 hours)
3) Technical English word-building and common affixes (2 hours)
4) Intensive Reading for the text book (58 hours)
5) Extensive reading for additional materials (2 hours)
There are totally 64 class hours for this course separately in two semesters with 2 hours a week. Chemical English is mainly studied in the first semester, and dyeing and finishing English predominantly in the second semester. The lectures about translation, word-building and paper writing are interleaved in the two semesters.
4. INDICATIVE READING
Recommended Textbook: CUI Shuling, HU Xuemin. English for Light Industry and Chemical Engineering. Beijing: China textile press, 2008
Supplementary:①LIU Yuhong. English for Science and Technology on Chemistry and Chemical Engineering. Beijing: China Light Industry Press, 2000; ②Some professional English journals, international conference proceedings, and communication materials from international textile expos.
Syllabus drafter: CUI Shuling
Syllabus approver: ZHANG Zhanzhu
Set date: Apr. ,2009
Chemistry of Textile Auxiliaries
Subject Type: compulsory course
Total Class Hours: 40 Classroom teaching: 40 hours; Experimental: 0 hours
Credit: 2.5
Applicants: undergraduate major in Light-chemical Engineering
1. ROLE AND PURPOSE
Chemistry of textile auxiliaries is a compulsory course in light-chemical engineering for undergraduates. Before learning this course, the courses such as inorganic chemistry, organic chemistry, analytical chemistry, physical chemistry, and some other courses about Light-chemical Engineering should be studied.
Through studying this course, students could get the knowledge of basic properties and applications of auxiliaries, and the influence which textile auxiliaries on the quality of the dyeing and finishing products. Combining the knowledge of textile auxiliaries and dyeing and finishing process, students could lay a solid foundation for their further career.
2. LEARNING OUTCOMES
Students should be able to achieve the following basic requirements by the end of this course:
1) Understand the physical meaning of surface tension, and its influencing factor. Understand how to determination the surface tension and its principle.
2) Understand what is surface-active substance and surfactant. Understand the chemical structure characteristics and sorting technique of surfactant.
3)Understand the chemical structure, property, application and its relationship of anionic surfactant, nonionic surfactant, cationic surfactant, ampholytic adsorption theoryand special surfactant.
4) Understand Gibbs adsorption formula, Understand adsorption theory of surfactant in oil-water and solid-fluid interface.
5) Understand the basic theory and its influencing factor of wetting and penetration. Understand the meaning of Young's wetting equation.
6) Understand the pattern of solubilization and its influencing factor.
7) Understand the causes of static electricity and its elimination method, understand the type and action mechanisms of antistatic agent.
3. INDICATIVE CONTENT AND TIME ALLOCATION
1) Surface tension and its measurement (4 hours)
2) The summarize of surfactant (1 hours)
3) Structural properties and uses of surfactant (8 hours)
4) The adsorption in surface of surfactant (3 hours)
5) The Status and nature of surfactant in solution. (2 hours)
6) The chemical construction of surfactant and the relationship between its property. (2 hours)
8) Wetting and penetration of surfactant (2 hours)
9) Emulsification and dispersion of surfactant (2 hours)
10) Solubilization of surfactant (2 hours)
11) Foaming and defoaming of surfactant (2 hours)
12) Washing of surfactant (2 hours)
13) The application in the process of staining of surfactant (2 hours)
14) Antistatic effect of surfactant (2 hours)
15) Softening of surfactant (2 hours)
16) Class discussion and review (2 hours)
4. INDICATIVE READING
Textbook: CHEN Xinrong. Chemistry of Surface Active Reagents.
References:
2) ZHAO Weirong. Chemistry of Surface Active Reagents. Anhui University Press.1997
3) LIANG Menglan. The Preparation, Nature and Application of Surfactant and Detergent. Scientific and Technical Documentation Press. 1990
4) LUO Jutao. The Application of Dyeing and Finishing Auxiliaries. China Textile & Apparel Press. 2000
Syllabus drafter: LOU Jianjun
Syllabus approver: ZHANG Zhanzhu
Set date: Apr. ,2009
Dyestuff Chemistry
Subject Name: Chemistry of Dyes
Subject Type: compulsory course
Total Credit Hours: 64 lecture: 44 hours; Experimental: 20 hours
Credit: 3.0
Applicants: undergraduate major in light industry and chemical engineering
1. ROLE AND PURPOSE
Chemistry of dyes is a course developed with the production of dye and its application. The main object of dye application is textile industry. This course will introduce dye classification by the application of dye, the structure, and the relationship between structure, colour, dyeing property and fastness of dye. Meanwhile, future directions of all kinds of dyes were introduced briefly.
2. LEARNING OUTCOMES
Chemistry of dyes is a compulsory course in light industry and chemical engineering, the course such as inorganic chemistry, organic chemistry, analytical chemistry, physical chemistry should be studied before this course, and get ready for the the following courses such as principle of the dyeing and finishing(dye, printing). Basic knowledge should be mastered, applications, structural features, synthetic method and selective absorption of all kinds of dyes should be familiar with after studing this course. The focus of this course were diazotization and coupling reaction, mechanisms, reaction equation and its influence factors of diazotization and coupling reaction should be familiar with. Application characteristics, structural features and synthetic route of typical dyes should be mastered.
3. INDICATIVE CONTENT AND TIME ALLOCATION
Classroom teaching: 44 hours; Experimental: 20 hours, Total: 64 hours every section has its assignment.
1) Basic knowledge (3 hours)
Understand the concept of all kinds of dyes, the their classifications and nomenclature.
2) The relationship between structure and colour of dye. (3 hours)
Understand the basic knowledge of luminescent dye and absorption of light, be familiar with the basic concepts of light and color, and understand the basic theory of color development.
3) Diazotization and coupling reaction. (6 hours)
Understand the mechanism, reaction equation and its influence factors of diazotization and coupling reaction.
Understand the reaction factors and implement method of diazotization. Understand the properties of diazonium salt.
Understand the reaction factors and implement method of coupling reaction. Understand the coupling mechanism of phenols and aryl amine derivatives. Learn how to control the terminal point of coupling reaction.
Understand substantivity and the reason why fibre has the property of substantivity, how to show the direct dye by substantivity, the state of aggregation of direct dye, the methods of classifications and the properties that different dye have.
5) Azoic dye (4 ours)
Understand the classification ofazoiccouplingcomponent, the reason why the affinity of azoic coupling component and fibre cause, and the property of azoic coupling component.
Chromophore and colour, the type of Chromophore, the preparation method, type as well as the property of fast salt should be understood.
Understand the structure, property and dyeing mechanism of these kinds of dyes.
Understand the structure and the reaction mechanism with fibre of Reactive dyes, and understand the hydrolysis reaction of dyes-fibre.
Understand the structure and dye properties of vat dyes
Understand the structure and the relationship of disperse dyes with fastness of insolation, sublimation as well as the relationship between disperse dyes and colours.
Understand the property, structure and relationship between them, as well as the Dyeing purposes and dyeing mechanism
11) Fluorescent whitening agent (1 hour)
Understand the structure, property, type as well as the whitening mechanism of fluorescent whitening agent.
13) Summarization (2 hours)
4. INDICATIVE READING
Supplementary: (1)Handbook of Dye Application. Textile Industry Press. (2) DyestuffChemistry. Shanghai Jiaotong University Press. (3) Experiments in the Dyeing and Finishing. China Textile Press.
Syllabus drafter: ZHAO Yaqin
Syllabus approver: ZHANG Zhanzhu
Set date: Apr. ,2009
Printing and Dyeing Factories Design
Subject Title:Printing and Dyeing Factories Design
Subject Type: compulsory course
Total Credit Hours: 32 lecture: 32 hours laboratory: 0 hours
Credit: 2
Applicants: undergraduate major in light industry and chemical engineering
1. ROLE AND PURPOSE
The course is compulsory professional course for Light Chemical Engineering undergraduate. Students are supposed to have finished some of major courses before studying this course. The purpose of offering this course is to train undergraduate´s capability of design for printing and dyeing factories. The task is to enhance the ability of linking theory with practice and managing a factory. Students should have the habit of search relationship between part and entirety so as to improve the quality of products and the production efficiency or total management.
2. LEARNING OUTCOMES
Students should be able to achieve the following basic requirements by the end of this course:
1)Tounderstand the current situation of the development of textile and dyeing industry,know the regular construction procedure of textile and dyeing factory,and be able to look up the basic data of textile and dyeing plant design.
2) Grasp of the overall planning layout of textile and dyeing industry,rationally use of the land, appropriate arrangement of plant road and pipeline.
3) Full understanding principle of cleaner production and water and energy conservation in printing and dyeing factory,be able to set reasonable products plan and design process flow and select range equipment and outfit worker. Have the capacity of using what they learned and computation.
4) Hold in hand layout principle of production and life outbuilding, understand production steam and water request and production thermal source type, hold in hand counting of steam and water quantity.
5) To understand the civil design requirement of factory buildings. Be able to writing of design instruction and drawing of printing and dyeing factory with strong capability in organized thought.
3. INDICATIVE CONTENT AND TIME ALLOCATION
1)Introduction(2 hours)
2) Designing procedure and its basic content (2 hours)
3)Technological design of printing and dyeing factories (10 hours)
4) Brief introduction of printing and dyeing factories other technical design(10 hours)
5)cleaner production and water and energy conservation of textile and dyeing industry(2 hours)
6)Technological design of knitting printing and dyeing factories(4 hours)
7)Outline makefile and its requirement of graduation design paper(4 hours)
4. INDICATIVE READING
Recommended Textbook: CUI Shuling, ZHU junping, ZHU renxiong. Dyeing and Printing Plant Design. Beijing: China textile press, 2008
Supplementary: JIN JiaXun. Intruduction to the Design forPrinting and Dyeing Factories. Hebei Light Industry and Chemical College Press
Syllabus drafter: LUAN YEMEI
Syllabus approver: CUI Shuling ; ZHANG Zhanzhu
Set date: Apr. ,2009
Standard and Testing of Textiles
Subject Title:Standard and Testing of Textiles
Subject Type: compulsory course
Total Credit Hours: 32 lecture: 0 hours; laboratory: 0 hours
Credit: 2
Applicants: undergraduate major in light industry and chemical engineering
1. ROLE AND PURPOSE
Standard and testing of textiles is a compulsory course for undergraduates majoring in light industry and chemical engineering. Students are supposed to understand the basics of textile testing, textile quality and quality management methods, international and domestic textile standards and standardization. And master the quality assessment principles and methods of textile raw materials, yarns, fabrics, garments and industrial textiles. By use of various means of detections scientifically students should have the ability to assess if textile quality meets the required standard or transaction requirements of the contract, and make a comprehensive, objective, fair and scientific evaluation.
The main content of the course are textiles and their classification, textile quality testing standards, testing contents and indexes.
Pre-requisite courses: Fiber Chemistry, Dyestuff Chemistry, Dyeing and Finishing Technology.
2. LEARNING OUTCOMES
Students should be able to achieve the following basic requirements by the end of this course:
Students can master the main contents and requirements of the textile testing standards and technical research, get familiar with the main testing standards, testing content and testing indicators of textile, and could make a comprehensive, objective and scientific evaluation of the quality of textiles in the production or trade.
3. INDICATIVE CONTENT AND TIME ALLOCATION
Introduction 1 hours
Chap 1 Basic information of textile testing 1 hours
Chap 2 Quality of textile 2 hours
Chap 3 Textile standard 1 hours
Chap 4 International Standard 1 hours
Chap 5 Functional testing 2 hours
Chap 6 Physical and chemical testing methods and principles 6 hours
Chap 7 Quality inspection of textile raw materials 2 hours
Chap 8 Quality inspection of the yarn 2 hours
Chap 9 Fabric quality inspection 4 hours
Chap 10 Inspection of industrial textiles 4 hours
Chap 11 Clothing quality inspection 1 hours
Chap 12 Textile safety inspection 4 hours
Exercise and Review 1 hours
4. INDICATIVE READING
Recommended Textbook: Jiang Yaoxing. Textile laboratory science. China Textile & Apparel Press, 2001
Supplementary::Li ting,Lu Weimin, Introduction to Inspection and Quarantine Inspection and Export of Textiles, Donghua University Press , 2005; Wan Rong, Xing Shengyuan Taking Textile Quality Analysis and Testing, China Textile Press, 2006
Syllabus drafter: WEI Yujuan
Syllabus approver: ZHANG Zhanzhu
Set date: Apr. ,2009
Machinery of Dyeing and Finishing
Subject Title:Machinery of Dyeing and Finishing
Subject type: elective course
Total Credit Hours: 40 lecture: 40 hours laboratory: 0 hours
Credits: 2.5
Applicants: undergraduate major in textile dyeing and finishing technology
1. ROLE AND PURPOSE
This course is a professional elective course for undergraduate major in textile dyeing and finishing technology. Students are supposed to have finished mechanical drawing, machinery design and some of major courses before studying this course.
In this course you will learn the basic concepts of textile wet processing equipment which includes pretreatment, dyeing, printing, and finishing facilities. By studying, you will know the relationship between machinery and process of dyeing and finishing, also the effect of machinery on fabric quality.
2. LEARNING OUTCOMES
This course is a specialized elective course, involving many professional foundation courses, such as scouring and bleaching, dyeing, printing. This teaching is based on lectures, with power point, video recording, and visiting plants as assist teaching. In this course, you will learn the universal machine and specialized machine for pretreatment, dyeing, printing and finishing.
3. INDICATIVE CONTENT AND TIME ALLOCATION
1) Introduction (2hours)
2) Universal machine (8hours)
3) Padder (6hours)
4) Machinery for heating and baking (2hours)
5) Machinery for Steaming (8hours)
6) Machinery for singeing (4hours)
7) Machinery for batch dyeing (2hours)
8) Machinery for printing (2hours)
9) Machinery for finishing (2hours)
4. INDICATIVE READING
Recommended Textbook: Wu Li. Machinery of Dyeing and Finishing (volume); 2. Beijing: China Textile Press, 1993
Supplementary: Sheng Huiying. Mechanical Design and Theory for Dyeing and Finishing. Beijing: Textile Industry Press, 1984
Syllabus drafter: LOU Jianjun
Syllabus approver: ZHANG Zhanzhu
Set date: Apr. ,2009