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2024 | OriginalPaper | Buchkapitel

Textile Testing and Quality Control in Knitting

verfasst von : Hafsa Jamshaid, Rajesh Mishra

Erschienen in: Knitting Science, Technology, Process and Materials

Verlag: Springer Nature Switzerland

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Abstract

This chapter summarizes the quality aspects of knitted fabrics and their testing methods. The knitted fabrics can be produced by a variety of methods. They are suitable for consumer as well as technical applications. Accordingly, their suitability and end-use performance parameters are determined. The chapter gives an overview of the various methods of characterization used for the evaluation of performance parameters in weft- and warp-knitted fabrics. Knitted textile fabrics have superior thermal and acoustic characteristics compared to conventional woven structures, foams, or nonwoven structures due to their wonderful pattern and porous nature. Hence, this chapter describes the influence of different structural parameters of knitted fabrics, e.g., areal density, porosity, thickness, stitch density, etc. on thermo-physiological and acoustic performance. This chapter also discusses the influence of material parameters and structural characteristics on the acoustic properties of knitted fabrics. Advanced statistical evaluation and two-way analysis of variance are used to analyze the significance of various factors such as thickness, type of knitted yarn, surface structures, and raw materials on specific properties. These details are important requirements for designing knitted fabrics suitable for consumer and technical applications.

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Vorheriges Kapitel Knitwear Dyeing: Theory and Sustainability

Nächstes Kapitel Technical Applications of Knitted Fabrics

W. Fung, M. Hardcastle, Product engineering – Interior trim, textiles in automotive engineering, in Textiles in Automotive Engineering. (The Textile Institute/Woodhead Publishing, Cambridge, 2001) ISBN 1 85573 493 1, pp. 194–211

R. Deng, P. Davies, K. Bajaj, Flexible polyurethane foam modelling and identification of viscoelastic parameters for automotive seating applications. J. Sound Vib. 262(3), 391–417 (2003)CrossRef

L.J. Gibson, M.F. Ashby, Cellular Solid Structure and Properties (Pergamon Press, New York, 1988)

M. Pajon, M. Bakacha D. Pignede, P. Van Effenterre, in Modeling of P.U. Foam Behavior – Applications in the Field of Automotive Seats, Bertrand Faure Equipments S.A., SAE 960513, International Congress and Exposition Detroit, Michigan, Feb 1996

G.R. Blair, A. Milivojevich, J.D. Van Heumen, Automotive Seating Comfort: Investigating the Polyurethane Foam Contribution – Phase I, SAE Paper No. 980656, Detroit (1997)

K. Ebe, Effect of Thickness on Static and Dynamic Characteristics of Polyurethane Foam (International Congress of Noise Control Engineering, Yokohama, 1994)

M. Kolich, S.D. Essenmacher, J.T. McEvoy, Automotive seating. The effect o f foam physical properties on occupied vertical vibration transmissibility. J. Sound Vib. 281(1–2), 409–416 (2005)CrossRef

J. Hopkins, A comparative analysis of laminating automotive textiles to foam. J. Coat. Fabr., 250–267 (1995)

R.A. Pfeifer, Evaluation of textile fabric properties utilized in foam-in-place head restraints. Master Thesis, Eastern Michigan University, 12 Oct 2005

10.

N. Njeugna, L. Schacher, D.C. Adolphe, J.B. Schaffhauser, P. Strehle, Development of a new 3D nonwoven for automotive trim applications, in New Trends and Developments in Automotive Industry (InTech, 2011, ISBN: 978-953-307-999-8), pp. 323–346

11.

X. Wu, S. Rakheja, P. Boileau, Distribution of human-seat interface pressure on a soft automotive seat under vertical vibration. Int. J. Ind. Ergon. 24, 545–557 (1999)CrossRef

12.

I. Hostens, G. Papajoannou, A. Spaepen, H. Ramon, Buttock and back pressure distribution tests on seats of mobile agricultural machinery. Appl. Ergon. 32(4), 347–355 (2001)CrossRef

13.

T.G. Cengiz, F.C. Bablik, In on -the-road experiment into the thermal comfort of car seats. Appl. Ergon. 38(3), 337–347 (2007)CrossRef

14.

N.C. Hilyard, P. Collier, Effect of vehicle seat cushion material on ride comfort. Paper presented at plastic on the road, the plastic and rubber institute international conference, London, 1984

15.

Y. Liu, H. Hu, Compression property and air permeability of weft-knitted spacer fabrics. J. Text. Inst. 102(44), 366–372 (2011)CrossRef

16.

Y. Liu, L. Lv, B. Sun, H. Hu, B. Gu, Dynamic response of 3d biaxial spacer weft-knitted composite under transverse impact. J. Reinf. Plast. Compos. 25(15), 1629–1641 (2006)CrossRef

17.

Y. Liu, H. Hu, L. Zhao, H. Long, Compression behavior of warp-knitted spacer fabrics for cushioning applications. Text. Res. J. 82(1), 11–20 (2012)CrossRef

18.

M. Li, S. Wang, Z. Zhang, B. Wu, Effect of structure on the mechanical behaviors of three-dimensional spacer fabric composites. Appl. Compos. Mater. 16, 1–14 (2008)

19.

J. Yip, S. Ng, Study of three-dimensional spacer fabrics: Physical and mechanical properties. J. Mater. Process. Technol. 206(1–3), 359–364 (2008)CrossRef

20.

D. Gross, 3D spacer knit fabrics for medical applications. J. Text. Appar. Technol. Manage. 4, 26–28 (2003)

21.

D. Ionesi, R. Ciobanu, A. Vircan, M. Blaga, C. Budulan, Three – Dimensional knitted fabric with technical destination, Universitatea Tehnică “Gheorghe Asachi” din Iaşi Tomul LVI (LX), Fasc. 3, 2010, pp. 29–37

22.

L. Ciobanu, Development of 3D knitted fabrics for advanced composite materials, in Advances in Composite Materials – Ecodesign and Analysis, ed.by B. Attaf (InTech, 2011). ISBN: 978-953-307-150-3

23.

S.H. Bruer, N. Powel, G. Smith, Three dimensionally knit spacer fabrics: A review of production techniques and applications. J. Text. Appar. Technol. Manage. 4, 1–31 (2005)

24.

K.D. Darlington, The productions of Raschel crochet fabric, Knit Outwear Times, 1968, vol. 22, pp. 42–45

25.

B. Wheatley, Development of tricot and Raschel machinery over the past 50 years. Knit Outwear. Times Y’r Bk, 1968, pp. 242–257

26.

http://www.textileworld.com/textile-world/knitting-apparel/2015/03/the-wide-world-of-knits/

27.

T. Palanirajan, G. Ramakrishnan, S. Sundaresan, P. Kandhavadivu, The influence of fabric parameter on low-stress mechanical properties of polyester warp-knitted spacer fabric. Int. J. Fash. Des. Technol. Educ. (2016). https://doi.org/10.1080/17543266.2016.1177738

28.

Y. Liu, H. Hu, Three-dimensional knitted textiles, in Advances in 3D Textiles, ed. by X. Chen, (The Textile Institute/Wood Head Publishing, Cambridge, 2015), pp. 125–152CrossRef

29.

W. Fung, M. Hardcastle, Textile and Automotive Engineering (The Textile Institute/Woodhead Publishing, 2001)CrossRef

30.

W. Fung, Coated and Laminated Textile (The Textile Institute/Woodhead Publishing, 2002)CrossRef

31.

Y. Liu, H. Hu, in Vibration Isolation Performance of Warp-knitted Spacer Fabrics. Fiber Society Spring Conference, Hong kong, 23−25 May 2011, pp. 63–64

32.

G. Smith, Industrial fabric products review. Buyers Guide 60(10), 42–44 (2004)

33.

C. Iyer, B. Mammel, W. Schach, Circular Knitting (Meisenbach, 1992)

34.

G. Ertekin, A. Marmarali, Heat, air and water vapor transfer properties of circular knitted spacer fabric. Textil ve Konfeksiyon 4, 369–373 (2011)

35.

M. Abounaim, Process development for the manufacturing of flat knitted innovative 3D spacer fabrics for high performance composite applications. PhD. Thesis, Technical University of Dresden, 2011

36.

M. De Araujo, R. Fangueiro, A. Cataring, H. Hong, Recent developments in weft – Knitting science and technology: The way a head in the new millennium. Revista Romana de Textile – Pielarie 1, 61–66 (2001) ISSN1453-5424

37.

Y.P. Liu, H. Hu, H. Long, L. Zhao, Compression behavior of warp-knitted spacer fabrics for cushioning application. Text. Res. J. 82, 21–26 (2012)

38.

Y.P. Liu, H. Hu, H. Long, L. Zhao, Impact compressive behavior of warp-knitted spacer fabrics for protective applications. Text. Res. J. 82, 773–288 (2012)CrossRef

39.

Y. Liu, H. Hu, W.M. Au, Effect of structural parameters and lamination protective properties of warp-knitted spacer fabrics under impact in hemispherical form. Part II. Text. Res. J. (2013). https://doi.org/10.1177/0040517513495942

40.

K. Machova, P. Klug, M. Waldmann, G. Hoftmann, C. Cherif, Determining of the bending strength of knitted spacer fabric. Melliand Textilberichte 87(6), E93 (2006)

41.

V. Arumugam, R. Mishra, J. Militky, M. Tunak, In-plane shear behavior of 3d knitted spacer fabrics. J. Ind. Text. 46, 868–886 (2016)CrossRef

42.

M. Xu-hong, G. Ming-qiao, The compression behaviour of the warp knitted spacer fabric. Fibers Text. East. Eur. 16(1), 56–61 (2008)

43.

V. Arumugam, R. Mishra, J. Militky, J. Salcova, Investigation on thermo-physiological and compression characteristics of weft knitted spacer fabrics. J. Text. Inst., Epub ahead of print, 12 Aug 2016. https://doi.org/10.1080/00405000.2016.1220035

44.

T. Dias, R. Monaragala, P. Needham, E. Lay, Analysis of sound absorption of tuck spacer fabrics to reduce auto-motive noise. Meas. Sci. Technol. 18(8), 2657–2666 (2007)CrossRef

45.

Y. Liu, H. Hu, Sound absorption behavior of knitted spacer fabrics. Text. Res. J. 80(18), 1949–1947 (2010)CrossRef

46.

E. Sancak, An investigations of sound absorbance properties of weft knitted spacer fabrics. Int. J. Acoust. Vib. 20(1), 36–40 (2015)

47.

V. Arumugam, R. Mishra, J. Militky, J. Novak, Thermo – Acoustic behavior of 3D knitted spacer fabrics. Fibers Polym. 16(11), 2467–2476 (2015)CrossRef

48.

X. Ye, H. Hu, X. Feng, Development of the warp knitted spacer fabrics for cushion applications. J. Ind. Text. 37(3), 213–223 (2008)CrossRef

49.

K. Machova, G. Hoffmann, C. Cherif, Micro-climate regulation of clothing systems. Melliand Textilberichte Internat Textile Reports German Incl Yellow Engl Tra 87, 11–12 (2006)

50.

M. Bagherzadeh, M. Gorji, P. Latifi, Payvandy, L.X. Kong, Evaluation of moisture management behavior of high-wicking 3D warp knitted spacer fabrics. Fibers Polym. 13(4), 529–534 (2012)CrossRef

51.

S.C. Anand, in Recent advances in knitting technology and knitted structures for technical textiles applications. Proceedings from ISTEK, 2003

52.

X. Ye, R. Fangueiro, H. Hu, M. Araujo, Application of warp-knitted spacer fabrics in car seats. J. Text. Inst. 98, 337–344 (2007)CrossRef

53.

D.M. Armakan, A. Roye, A study on the compression behavior of spacer fabrics designed for concrete applications. Fibers Polym. 10, 116–123 (2009)CrossRef

54.

D. Mecit, A. Roye, Investigation of a testing method for compression behavior of spacer fabrics designed for concrete applications. Text. Res. J. 79, 867–875 (2009)CrossRef

55.

S. Savci, J.I. Curiskis, M. Pailthorpe, Knittability of glass fiber weft-knitted preforms for composites. Text. Res. J. 71, 15–21 (2001)CrossRef

56.

M. Abounaim, G. Hoffmann, O. Diestel, C. Cherif, in 3D Spacer Fabric as Sandwich Structure by Flat Knitting for Composites Using Hybrid Yarn. Proceedings of the Autex Conference, Izmir, 2009, pp. 675–681

57.

I. Verpoest, Characterisation and Development of 3D Knitted Composites (Katholieke 78 Universitaet Leuven, Department of Material and Metallurgy Engineering Composite Materials Group, 1995)

58.

D. Phillips, I. Verpoest, J. van Raemdonck, in Optimising the Mechanical Properties of 3D-Knitted Sandwich Structures. Proceedings of the 11th International Conference on Composite Materials, 14–18 July 1997, pp. 211–218

59.

D. Philips, I. Verpoest, in 3D-Knitted Sandwich Structures: Production, Properties and Prospects. Proceedings ECCM-8, 8th European Conference on Composite Materials – Science, Technologies and Applications, vol. 1, Italy, 3–6 June 1998, pp. 543–550

60.

D. Mecit, A. Marmarali, Application possibilities of 3d weft knitted spacer fabrics in composite structures, AUTEX 2011, 8–10 June 2011, Mulhouse

61.

A.S. Richard, Textiles for Protection (The Textile Institute/Woodhead Publishing, Cambridge, 2005) ISBN 1 85573 493 1

62.

D. Rothe, Warp knitted s pacer fabric – Design and application fields. Knitting Technol. 4, 14–16 (2001)

63.

Y. Liu, W.M. Au, H. Hu, Protective properties of warp-knitted spacer fabrics under impact in hemispherical form. Part I: Impact behavior analysis of a typical spacer fabric. Text. Res. J. 84(4), 422–434 (2014)CrossRef

64.

X.F. Guo, H.R. Long, L. Zhao, Investigation on the impact and compression-after-impact properties of warp-knitted spacer fabrics. Text. Res. J. 83, 904–916 (2013)CrossRef

65.

N. Oglakcioglu, A. Marmarali, Thermal comfort properties of some knitted structures. Fibers Text. East. Eur. 15(5–6), 64–65 (2007)

66.

N. Ucar, T. Yilmaz, Thermal properties of 1x1, 2x2, 3x3 rib knit fabrics. Fibers Text. East. Eur. 3(47), 34–38 (2004)

67.

B. Crina, M. Blaga, V. Luminita, R. Mishra, Comfort properties of functional weft knitted spacer fabrics. TekstiL Ve Konfeksiyon 23(2), 220–227 (2013)

68.

B. Pause, Thermo-physiological comfort provided by knitted spacer fabrics. Melliand Textileberichte 83(3), 134–136 (2002)

69.

V. Krel, G. Hoffmann, P. Offermann, K. Machova, L. Hes, Spacer fabrics for sports clothing with improved comfort. Melliand Textilberichte 86(5), E73 (2005)

70.

S. Anand, C. Rebenciuc, in Elaboration of a Prediction Method of the Values for Some Characteristics of the Weft Knitted Fabrics. 5th International Conference TEXSCI 2003 Proceedings, Liberec, 2003

71.

A. Reisfeld, Warp Knit Engineering (National Knitted Outerwear Association, New York, 1990)

72.

S. Rajendran, S. Anand, Design and development of novel bandages for compression therapy. Br. J. Nurs. 12(6), S20–S29 (2003)CrossRef

73.

A. Davies, J. Williams, The use of spacer fabrics for absorbent medical applications. J. Fiber Bioeng. Inform. 1(4), 321–329 (2009)

74.

X.H. Miao, M.Q. Ge, The compression behavior of warp knitted spacer fabric. Fibers Text. East. Eur. 16, 90–92 (2008)

75.

T. He, A study of three dimensional warp knits for novel applications as tissue engineering scaffolds. A Master Thesis, NC State University, 2011

76.

G. Lee, S. Rajendran, S. Anand, New single-layer compression bandage system for chronic venous leg ulcers. Br. J. Nurs. 18(15), S4–S18 (2009)CrossRef

77.

F.T. Moutos, B.T. Estes, F. Guilak, Multifunctional hybrid three-dimensionally woven scaffolds for cartilage tissue engineering. Macromol. Biosci. 10(11), 1355–1364 (2010)CrossRef

78.

F.T. Moutos, L.E. Freed, F. Guilak, A biomimetic three-dimensional woven composite scaffold for functional tissue engineering of cartilage. Nat. Materials 6(2), 162–167 (2007)CrossRef

79.

M. Rock, K. Lohmueller, Three dimensional knit spacer fabric for bed pads. US patent No. 5817391, 1998

80.

S. Bawadi, Development of the weaving machine and 3D woven spacer fabric structures for lightweight composites materials. PhD Dissertation, Technische Universität Dresden, 2007

81.

A. Unal, G. Hoffmann, C. Cherif, Development of weft knitted spacer fabrics for composite materials. Melliand Textileberichte 4, 49–50 (2006)

82.

M. Abounaim, G. Hoffmann, O. Diestel, C. Cherif, Thermoplastic composite from innovative flat knitted 3D multi-layer spacer fabric using hybrid yarn and the study of 2D mechanical properties. Compos. Sci. Technol. 70, 363–370 (2010)CrossRef

83.

L. Gilbert, N.B. Martin, D. Johanne, Evaluation of bias-extension and picture-frame test methods for the measurement of intra ply shear properties of PP/glass commingled fabrics. Compos. Struct. 61, 341–352 (2003)CrossRef

84.

A. Willems, S. Lomov, I. Verpoest, D. Vandepitte, in Picture Frame Shear Tests on Woven, Textile Composite Reinforcements with Controlled Pretension. 10th Esa form conference on material forming, Parts A and B, 2007, pp. 999–1004

85.

M. Avalle, G. Belingardi, R. Montanini, Characterization of polymeric structural foams under compressive impact loading by means of energy-absorption diagram. Int. J. Impact Eng. 25, 455–472 (2001)CrossRef

86.

P.H. Mareze, R.P. Becker, A. Lenzi, C. Pellegrini, in Rigid-Frame Porous Material Acoustic Attenuation on Compressor Discharge. International Compressor Engineering Conference at Purdue July 16–19, 2012

87.

F. Fohr, D. Parmentier, B. Castagnede, M. Henry, An alternative and industrial method using low frequency ultrasound enabling to measure quickly tortuosity and viscous characteristic length. Proc. Acoust. (2008)

Titel: Textile Testing and Quality Control in Knitting
verfasst von: Hafsa Jamshaid
Rajesh Mishra
Verlag: Springer Nature Switzerland
Buch: Knitting Science, Technology, Process and Materials
Print ISBN: 978-3-031-44926-0

Electronic ISBN: 978-3-031-44927-7

Copyright-Jahr: 2024
DOI: https://doi.org/10.1007/978-3-031-44927-7_7

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