Journal of Textile Research ›› 2021, Vol. 42 ›› Issue (11): 24-28.doi: 10.13475/j.fzxb.20210104105

• Fiber Materials • Previous Articles     Next Articles

Effect of cotton cleaning on fiber quality of machine-harvested cotton in Xinjiang region

WU Yanqin1,2, TIAN Jingshan1,2, ZHANG Xuyi1,2, XU Shouzhen1,2, ZUO Wenqing1,2, ZHANG Wangfeng1,2, GOU Ling1,2, ZHANG Yali1,2, DONG Hengyi3, JIU Xingli3, YU Yongchuan3, ZHAO Zhan4   

  1. 1. College of Agronomy, Shihezi University, Shihezi, Xinjiang 832000, China
    2. Key Laboratory of Oasis Eco-Agriculture, Xinjiang Production and Construction Corps, Shihezi, Xinjiang 832000, China
    3. Division Eight of the Xinjiang Production and Construction Corps, Shihezi, Xinjiang 832000, China
    4. Division One of the Xinjiang Production and Construction Corps, Alaer, Xinjiang 843301, China
  • Received:2021-01-18 Revised:2021-08-02 Online:2021-11-15 Published:2021-11-29

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Abstract:

To reduce the fiber quality damage caused by machine-harvesting and cleaning processes, the relationship between fiber quality and levels of cleaning were comparatively analyzed with regards to Xinjiang cotton. The optimum number of cleaning processes for machine-harvested cotton was determined based on minimal fiber damage. The results indicated that each cotton cleaner causes fiber damage, and seed cotton cleanings vary greatly in its effect on fiber strength with the strength reduction of 1.0 cN/tex. The declines during the second and third seed cotton cleanings, are greater than those during the first and fourth cleanings. Lint cleanings significantly reduce the fiber length and length uniformity index by 0.8 mm and 1.7%, and significantly increase short fiber index by 2.0%, and the greatest damage takes place during the first lint cleaning (included ginning). Therefore, differentiated selections of seed cotton cleanings should be adopted based on the level of leaf contamination by using 1 or 2 seed cotton cleaners. Lint cleaning should only use one air-type lint cleaner or this could sometimes be omitted.

Key words: machine-harvested cotton, fiber quality, cotton cleaning, fiber damage, cotton in Xinjiang

CLC Number: 

  • S233.75

Tab.1

Effects of seed cotton cleaning and lint cleaning on fiber quality"

清理工序 长度/mm 比强度/(cN·tex-1) 马克隆值 长度整齐度/% 短纤维率/%
加工前 (29.3±0.7)a (28.0±1.5)a (4.7±0.4)a (84.8±0.6)a (5.9±0.8)b
籽棉清理 (29.1±0.8)a (27.3±1.5)a (4.6±0.3)a (84.5±0.7)a (6.1±0.9)b
皮棉清理 (28.3±0.8)b (27.0±1.4)a (4.1±0.3)a (82.8±1.0)b (8.2±1.3)a
P 0.002 2 0.250 9 0.101 4 0.000 1 0.000 1

Fig.1

Changes of fiber length during cotton picker cleaning and processing"

Fig.2

Changes of fiber strength during cotton picker cleaning and processing"

Fig.3

Changes of fiber Micronaire during cotton picker cleaning and processing"

Fig.4

Changes of fiber uniformity index during cotton picker cleaning and processing"

Fig.5

Changes of short fiber index during cotton picker cleaning and processing"

Tab.2

Effect of seed cotton and lint cleaning on foreign matter content of lint"

清理工序 含量/%
总杂质 铃壳 棉秆
加工前 (15.5±3.5)a (12.0±3.8)a (2.5±1.5)a (1.0±0.2)a
籽棉清理 (6.7±2.9)b (4.4±2.3)b (1.6±0.6)a (0.7±0.4)b
皮棉清理 (2.0±1.1)c (2.0±1.1)b (0.0±0.0)b (0.0±0.0)c
P <0.000 1 <0.000 1 0.000 2 <0.000 1

Fig.6

Changes of percent leaf trash during cotton picker cleaning and processing"

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