针织工业
針織工業
침직공업
KNITTING INDUSTRIES
2015年
4期
52-54
,共3页
超声波%羊绒%针织物%缩绒工艺%抗起毛起球性能
超聲波%羊絨%針織物%縮絨工藝%抗起毛起毬性能
초성파%양융%침직물%축융공예%항기모기구성능
Ultrasonic%Cashmere%Knitted Fabric%Felting Process%Pilling Resistance
羊绒针织物抗起毛起球性能与缩绒工艺存在一定的关系,文中将超声波技术用于羊绒针织物缩绒工艺来探索对绒面厚度及抗起毛起球性能的影响。测试并分析了超声波频率、缩绒剂用量、缩绒温度、缩绒时间以及缩绒液pH值对绒面厚度及抗起毛起球性能的影响。并将采用超声波技术的缩绒工艺与不采用超声波技术的缩绒工艺整理后的羊绒针织物的性能进行比较。结果表明,将超声波技术用于羊绒针织物的缩绒工艺时,合理控制缩绒工艺条件,可使织物手感和抗起毛起球性能达到最佳状态;最佳缩绒工艺的参数为:超声波频率50 kHz,缩绒剂用量1.0%,缩绒温度30℃,缩绒时间20 min,pH值为6.5~7.0。
羊絨針織物抗起毛起毬性能與縮絨工藝存在一定的關繫,文中將超聲波技術用于羊絨針織物縮絨工藝來探索對絨麵厚度及抗起毛起毬性能的影響。測試併分析瞭超聲波頻率、縮絨劑用量、縮絨溫度、縮絨時間以及縮絨液pH值對絨麵厚度及抗起毛起毬性能的影響。併將採用超聲波技術的縮絨工藝與不採用超聲波技術的縮絨工藝整理後的羊絨針織物的性能進行比較。結果錶明,將超聲波技術用于羊絨針織物的縮絨工藝時,閤理控製縮絨工藝條件,可使織物手感和抗起毛起毬性能達到最佳狀態;最佳縮絨工藝的參數為:超聲波頻率50 kHz,縮絨劑用量1.0%,縮絨溫度30℃,縮絨時間20 min,pH值為6.5~7.0。
양융침직물항기모기구성능여축융공예존재일정적관계,문중장초성파기술용우양융침직물축융공예래탐색대융면후도급항기모기구성능적영향。측시병분석료초성파빈솔、축융제용량、축융온도、축융시간이급축융액pH치대융면후도급항기모기구성능적영향。병장채용초성파기술적축융공예여불채용초성파기술적축융공예정리후적양융침직물적성능진행비교。결과표명,장초성파기술용우양융침직물적축융공예시,합리공제축융공예조건,가사직물수감화항기모기구성능체도최가상태;최가축융공예적삼수위:초성파빈솔50 kHz,축융제용량1.0%,축융온도30℃,축융시간20 min,pH치위6.5~7.0。
Pilling resistance of cashmere knitted fabric has a certain relationship with felting process. The ultra-sonic technology was used in felting process of cashmere knitted fabric to explore the effects on the thickness of pile face and pilling resistance. The effects of ultrasonic frequency, temperature, time, the dosage of milling agent and the pH value of milling fluid on the thickness of pile face and pilling resistance were tested and analyzed. The property of cashmere knitted fabric after felting process by ultrasonic technology was compared with that without ul-trasonic technology. The results show that fabric hand and its pilling resistance can remain in the best conditions by adopting ultrasonic technology and controlling the conditions of felting process reasonably. The optimal parameters of felting process is that ultrasonic frequency is 50 kHz, the dosage of milling agent is 1.0%, felting time 20 min, felting temperature is 30 ℃, and pH value is 6.5~7.0.
