体外膜肺氧合经编膜织物自适应张力的低损伤制备

doi:10.13475/j.fzxb.20240407701

纺织学报 ›› 2024, Vol. 45 ›› Issue (07): 1-9.doi: 10.13475/j.fzxb.20240407701

• 特约论文 • 下一篇

体外膜肺氧合经编膜织物自适应张力的低损伤制备

席立锋¹, 蒋高明¹(), 马丕波¹, 贾伟², 张红斌², 王佳冕², 夏风林¹, 张琦¹, 刘海桑¹

1.江南大学针织技术教育部工程研究中心, 江苏无锡 214122
2.国家高性能医疗器械创新中心, 广东深圳 518110

收稿日期:2024-04-30 修回日期:2024-05-30 出版日期:2024-07-15 发布日期:2024-07-15
通讯作者: 蒋高明(1962—),男,教授,博士。主要研究方向为智能化纺织装备技术。E-mail:jgm@jiangnan.edu.cn。
作者简介:席立锋(1994—),男,博士生。主要研究方向为针织装备数字化技术和针织产品开发。
基金资助:
深圳市科技重大专项课题(202327D238);中央高校基本科研业务费专项资金资助,江苏省研究生科研与实践创新计划项目(KYCX24_2547)

Low-damage preparation of extracorporeal membrane oxygenation warp knit membrane fabrics with adaptive tension

XI Lifeng¹, JIANG Gaoming¹(), MA Pibo¹, JIA Wei², ZHANG Hongbin², WANG Jiamian², XIA Fenglin¹, ZHANG Qi¹, LIU Haisang¹

1. Engineering Research Center for Knitting Technology, Ministry of Education, Jiangnan University, Wuxi, Jiangsu 214122, China
2. National Innovation Center for Advanced Medical Devices, Shenzhen, Guangdong 518110, China

Received:2024-04-30 Revised:2024-05-30 Published:2024-07-15 Online:2024-07-15

摘要/Abstract

摘要：

针对体外膜肺氧合(ECMO)系统中使用的氧合膜织物国产化制备技术难题,进行了ECMO系统用经编膜织物低损伤制备及其透气性能研究。采用特种特里克型经编机开展了不同送经量下的氧合膜织物制备实验,分析了聚甲基戊烯(PMP)中空纤维膜丝的编织损伤机制;提出一种自适应张力控制下的ECMO系统用氧合膜织物低损伤制备方法,对比分析了采用该方法制备的氧合膜织物性能指标。实验结果表明:基于氧合膜织物提出的自适应张力控制方法可有效调控经纱张力的“削峰补谷”缺陷,实现氧合膜织物的低损伤制备;用该法制备的ECMO系统用氧合膜织物纵密为20横列/cm,编织位置外径损失3%,强力损失5%;编织前后N₂通量衰减17%,CO₂通量衰减12%,O₂通量衰减14%;同时,氧合膜织物平整度、密度、气通量等均已达到国外同类产品水平。

关键词: 医用纺织品, 体外膜肺氧合系统用氧合膜织物, 聚甲基戊烯中空纤维膜丝, 经编织物, 低损伤制备方法, 透气性能

Abstract:

Objective Extracorporeal membrane oxygenation (ECMO) is used to provide continuous extracorporeal blood oxygenation to patients with severe cardiopulmonary failure to maintain the patients' life. The ECMO device consists of an oxygenator, a centrifugal pump, and a control system, of which the oxygenator is the core component for accomplishing the blood oxygenation. This study addresses the problem of technological gaps in the preparation of separation membrane fabrics for oxygenators and presents a study on the low-damage preparation of ECMO membrane fabrics based on warp knitting technology.

Method Through the stitch analysis of membrane fabrics made from polymethylpentene (PMP) hollow fibers membrane, the parameters such as knitting stitch, yarn type and other fabric specifications of membrane fabrics were determined. The knit fabrics were manufactured on the special Tricot warp knitting machine from PMP hollow fiber membrane. Based on the experimental results and the understanding of the knitting equipment, warp yarn tension was identified as one of the main influencing factors affecting the damage of the PMP hollow fiber knitting. An adaptive warp yarn tension control method was proposed with the Tricot warp knitting machine through the PID control strategy design and the fifth degree polynomial curve planning, aiming to achieve low-damage knitting of PMP hollow fiber.

Results The results showed that the damage of prepared ECMO membrane fabrics was mainly caused by the mismatch of yarn demand between the warp feed and knitting action at constant speed. The knitting tension amplitudes at 900, 1 000, and 1 100 mm/rack warp feed were 28, 23, and 19 cN, respectively, which led to the attenuation of PMP hollow fiber strength, outer diameter, and air flux. The ECMO membrane fabrics were prepared using the adaptive tension control method. The warp tension amplitude in a single cycle was regulated from 2.4-23 cN to 3-10 cN at the warp feed of 1 000 mm/rack, and the tension fluctuation amplitude was reduced by 56.5%. The results of ECMO film fabric preparation under adaptive tension control showed 3% loss of outer diameter and a 5% loss of strength at the weaving position. The N₂ flux was decayed by 17%, CO₂ flux by 12% and O₂flux by 14% before and after braiding. Compared with the experiment without adaptive tension control, each gas flux index showed 65% enhancement of N₂ flux, 63% enhancement of CO₂ flux, and 62% enhancement of O₂ flux, which further exemplified the effectiveness of the adaptive tension control scheme for the low-damage preparation of ECMO membrane fabrics.

Conclusion In this paper, based on warp knitting technology, a self-adaptive warp tension regulation method was developed to realize the low damage preparation of ECMO warp-knitted membrane fabrics by using homemade PMP hollow fibers as the substrate. The main research conclusions are as follows. 1) Through the membrane fabric preparation experiments, an adaptive tension control method is proposed, and through the PID control strategy and the fifth polynomial speed planning curve, the "peak shaving and valley filling" of the warp yarn tension curve in the preparation process of ECMO membrane fabrics is accomplished, realizing the low-damage preparation of ECMO membrane fabrics. 2) The strength, outer diameter, and air flux of the PMP hollow fiber are significantly attenuated during the knitting process of the ECMO membrane fabric on a HKS Tricot warp knitting machine. This attenuation is primarily attributable to the material properties of the PMP membrane. A key contributing factor is the mismatch between the constant speed let-off rate and the actual amount of yarn required for the knitting process. 3) By testing ECMO membrane fabrics preparation under adaptive tension control, it was found that the mechanical properties, outer diameter, and air permeability of the PMP hollow fibers were significantly improved. The N₂ flux of the prepared ECMO membrane fabrics was attenuated by 17%, the CO₂ flux was attenuated by 12%, and the O₂ flux was attenuated by 14%. The flatness, density, and gas flux results of the fabric have reached the level of foreign products.

Key words: medical textiles, oxygenation membrane fabric for extracorporeal membrane oxygenation system, polymethylpentene hollow fiber membrane, warp knitted fabric, low-damage preparation method, breathable property

中图分类号:

TS181.8

席立锋, 蒋高明, 马丕波, 贾伟, 张红斌, 王佳冕, 夏风林, 张琦, 刘海桑. 体外膜肺氧合经编膜织物自适应张力的低损伤制备[J]. 纺织学报, 2024, 45(07): 1-9.

XI Lifeng, JIANG Gaoming, MA Pibo, JIA Wei, ZHANG Hongbin, WANG Jiamian, XIA Fenglin, ZHANG Qi, LIU Haisang. Low-damage preparation of extracorporeal membrane oxygenation warp knit membrane fabrics with adaptive tension[J]. Journal of Textile Research, 2024, 45(07): 1-9.

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链接本文: http://www.fzxb.org.cn/CN/10.13475/j.fzxb.20240407701

http://www.fzxb.org.cn/CN/Y2024/V45/I07/1

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参考文献 15

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材料类别	外径/ μm	N₂通量	断裂强力/cN	断裂伸长率/%	弹性模量/MPa
PMP(样品)	395	0.10±0.015	90	251.54	150
PMP(实验)	405	0.15±0.025	95	265.21	140

实验编号	机号	机速/ (r·min^-1)	穿纱方式	垫纱数码	送经量/ (mm·腊克^-1)	牵拉密度/ (根·cm^-1)
实验1 实验2 实验3	E24 E24 E24	50 50 50	1穿10^*	1-0//	1 100	11
			1穿10^*	1-0//	1 000	10
			1穿10^*	1-0//	900	9

样品编号	断裂强力		断裂伸长率/%		弹性模量
样品编号	均值/cN	CV值/%	均值	CV值	均值/MPa	CV值/%
试样1	84.79	8.05	238.05	10.68	123.46	15.42
试样2	85.77	8.62	241.03	11.20	126.14	34.45
试样3	75.28	15.78	205.35	18.92	107.27	40.80

样品编号	编织前外径		非编织位置外径		编织位置外径
样品编号	均值/μm	CV值/%	均值/μm	CV值/%	均值/μm	CV值/%
试样1	405.75	8.35	375.79	7.05	366.05	16.68
试样2	403.77	8.45	390.95	6.62	375.03	12.20
试样3	404.15	8.18	365.28	11.78	310.03	20.92

样品编号	不同气体的气通量/(mL·(cm²·min·MPa)^-1)
	N₂		CO₂		O₂
	编织前	编织后	编织前	编织后	编织前	编织后
样品	—	0.135	—	0.315	—	0.255
试样1	0.155	0.067	0.365	0.249	0.305	0.176
试样2	0.155	0.078	0.365	0.288	0.305	0.192
试样3	0.155	0.045	0.365	0.145	0.305	0.095

体外膜肺氧合经编膜织物自适应张力的低损伤制备

Low-damage preparation of extracorporeal membrane oxygenation warp knit membrane fabrics with adaptive tension

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梳栉运动过程	主轴角度/(°)	使用角度/(°)	推纬片动作
针背垫纱	245~80	195	—
针背-针前	80~125	45	针前→针背
针前垫纱	125~190	65	针背→针前
针前-针背	190~245	55	—

名称	数量	规格型号	功能
特种经编机	1台	HKS2/E24	编织设备
整机控制系统	1套	WKC2.0	整机操控平台
运动控制卡	1套	固高800-PG	运动控制器
伺服电动机	1套	汇川750 W	控制及执行机构
张力传感器	1套	JZHL(0~1 N)	张力采集
测试平台	1套	LMS Test.Lab	张力数据分析

送经量/ (mm·腊克^-1)	无自适应张力/cN			自适应张力/cN
送经量/ (mm·腊克^-1)	第1 波峰	第2 波峰	张力幅值	第1 波峰	第2 波峰	张力幅值
900	13	26	3~28	6	12	3.7~11.5
1 000	9	22	2.4~23	5	10	3~10
1 100	10	18	2.3~19	3.5	8	2.3~8

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