Haryana TET-06 Textile Technology Lecturer Paper 2025

Q1. 1. How do molecular orientation and crystallinity contribute to their mechanical behaviour and end-use applications?
Explain why wool fibre exhibits greater elasticity, lower tensile strength, higher moisture absorption, and superior thermal insulation compared to silk fibre, by analysing the composition and structure of both fibres.

Q1. CANDIDATE COPY 60-TEF How do molecular orientation and crystallinity contribute to their mechanical behaviour 1. -10 and end-use applications? Explain why wool fibre exhibits greater elasticity, lower tensile strength, higher

Q2.

(a) moisture absorption, and superior thermal insulation compared to silk fibre, by analysing the composition and structure of both fibres. Explain the effect of liquid crystal polymer concentration on its viscosity, and 2.

(b) identify suitable concentration ranges for wet spinning and dry-jet-wet spinning of poly (1, 4 – phenylene terephthalamide). What do you understand by dimensional stability of textile fibre? 3. 4 (a) Discuss the heat setting treatment of synthetic fibre. What is the effect of heat 3. (b) 6 setting on dye-uptake of fibre? What is the dynamics of fibre migration in ring and rotor spun varns? 5 4. (a) Calculate the helical angle of the outer filaments in a multi filament polyester 4. (b) (PET) yarn using the following data: Assume that yarn follows helical model. Twist factor: 4 tpi/√(Ne) Packing coefficient of the yarn : 0.75 Compare carding and stripping actions in carding machines, with emphasis on 5. (a) wire point arrangements, direction of rotation, action regions, and fibre movement. Discuss the factors that affect combing performance and the level of noil extraction 5. √(5) (b) in a combing machine. With appropriate illustrations, elaborate the recent technological advancements in roving 6. and ring spinning machines. Evaluate how these innovations impact yarn productivity ĉ and quality. All Estat Bible Calculate the concentration of dye required in dyeing of cotton fabric with Reactive 7. dyes with shade 1.5 % in continuous dyeing. Weight of the fabric is 1000 kg. Padding mangle has 70 % expression. The fabric has good absorbency. The dye has 80 % exhaustion rate. What are the considerations for industrial practice in such cases? TET-06 2025 \mathbf 2 am Maya

Q2.

(a) moisture absorption, and superior thermal insulation compared to silk fibre, by analysing the composition and structure of both fibres. Explain the effect of liquid crystal polymer concentration on its viscosity, and 2.

(b) identify suitable concentration ranges for wet spinning and dry-jet-wet spinning of poly (1, 4 – phenylene terephthalamide). What do you understand by dimensional stability of textile fibre? 3. 4 (a) Discuss the heat setting treatment of synthetic fibre. What is the effect of heat 3. (b) 6 setting on dye-uptake of fibre? What is the dynamics of fibre migration in ring and rotor spun varns? 5 4. (a) Calculate the helical angle of the outer filaments in a multi filament polyester 4. (b) (PET) yarn using the following data: Assume that yarn follows helical model. Twist factor: 4 tpi/√(Ne) Packing coefficient of the yarn : 0.75 Compare carding and stripping actions in carding machines, with emphasis on 5. (a) wire point arrangements, direction of rotation, action regions, and fibre movement. Discuss the factors that affect combing performance and the level of noil extraction 5. √(5) (b) in a combing machine. With appropriate illustrations, elaborate the recent technological advancements in roving 6. and ring spinning machines. Evaluate how these innovations impact yarn productivity ĉ and quality. All Estat Bible Calculate the concentration of dye required in dyeing of cotton fabric with Reactive 7. dyes with shade 1.5 % in continuous dyeing. Weight of the fabric is 1000 kg. Padding mangle has 70 % expression. The fabric has good absorbency. The dye has 80 % exhaustion rate. What are the considerations for industrial practice in such cases? TET-06 2025 \mathbf 2 am Maya

Q3. (a) 3. Discuss the heat setting treatment of synthetic fibre.

(a) 3. Discuss the heat setting treatment of synthetic fibre.

(b) What is the effect of heat setting on dye-uptake of fibre? What is the dynamics of fibre migration in ring and rotor spun yarns?

• (a) 3. Discuss the heat setting treatment of synthetic fibre.
• (b) What is the effect of heat setting on dye-uptake of fibre? What is the dynamics of fibre migration in ring and rotor spun yarns?

Q4.

(a) 4. Calculate the helical angle of the outer filaments in a multi filament polyester (PET) yarn using the following data: Twist factor: 4 tpi/√(Ne); Packing coefficient of the yarn: 0.75.

(b) Compare carding and stripping actions in carding machines, with emphasis on wire point arrangements, direction of rotation, action regions, and fibre movement.

(c) Discuss the factors that affect combing performance and the level of noil extraction. In a combing machine, with appropriate illustrations, elaborate the recent technological advancements in roving and ring spinning machines. Evaluate how these innovations impact yarn productivity and quality.

Q5. (a) 5. Wire point arrangements, direction of rotation, action regions, and fibre movement.

(a) 5. Wire point arrangements, direction of rotation, action regions, and fibre movement.

(b) Discuss the factors that affect combing performance and the level of noil extraction. In a combing machine, discuss the recent technological advancements in roving and ring spinning machines with appropriate illustrations. Evaluate how these innovations impact yarn productivity and quality.

• (a) 5. Wire point arrangements, direction of rotation, action regions, and fibre movement.
• (b) Discuss the factors that affect combing performance and the level of noil extraction. In a combing machine, discuss the recent technological advancements in roving and ring spinning machines with appropriate illustrations. Evaluate how these innovations impact yarn productivity and quality.

Q6. 6. Calculate the concentration of dye required in dyeing of cotton fabric with Reactive dyes with shade 1.5% in continuous dyeing. Weight of fabric is 1000 kg. Padding mangle has 70% expression. The fabric has good absorbency. The dye has 80% exhaustion rate. What are the considerations for industrial practice in such cases?