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TE 402 Fabric Design. Fabric Analysis Example. Introduction. In this study, the fabric analysis and necessary calculations to reproduce the fabric is presented. The process can be explained in two following titles: Fabric analysis Calculations. Fabric A nalysis.
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TE 402 Fabric Design Fabric Analysis Example
Introduction • In this study, the fabric analysis and necessary calculations to reproduce the fabric is presented. • The process can be explained in two following titles: • Fabric analysis • Calculations
Fabric Analysis • The Face of the fabric is determined. • The warp and weft direction of the fabric is determined. • The warp set and weft set are determined. • The number of warp and weft yarns are determined in Nm. • The crimp of the warp and weft yarns are determined. • Pattern of the fabric is determined • Drafting, denting and lifting report of the fabric is determined. • If the fabric consists of many colors in warp and weft direction, the color report is determined for both warp and weft yarns.
Calculations The yarn count is defined as Nm and it is used for weight calculation Crimp of the warp and weft yarns L1= the stretched length of the warp yarn (without crimp) L0= the length of the warp yarn in fabric. K1= the stretched length of the warp yarn (without crimp) K0= the length of the warp yarn in fabric.
Yarn count calculation • n= number of the warp yarns • L1= the stretched length of the warp yarn (without crimp) • c1= the weight loss of the warp yarn after finishing process (%) • mass= mass of the ‘n’ warp yarn (gr) • n= number of the weft yarns • K1= the stretched length of the weft yarn (without crimp) • mass= mass of the ‘n’ weft yarn (gr)
Calculating the warp weight per square meter Calculating the weft weight per square meter Calculating the warp weight per meter Calculating the weft weight per meter
Reed number and reed width Weigth of weft yarn in fabric (gr)
Number of total weft yarns of end product fabric Length of the warp yarn and total weight of the warp yarns (gr)
Calculation of Raw fabric width and length Calculation of Raw fabric weft and warp setts
Calculation of FabricProduction n: rotation speed of main shaft (rev/min) b: working width of the weaving machine µ: efficiency of the weaving machine D: number of weft yarn in 10 cm fabric
Example • A fabric sample with 1.6 m width and 1500 m length will be produced. The warp yarns has count of 30/1 Ne and the weft yarns has count of 20/1 Ne. Design of the fabric is 10.0101.01.00(s). • Assume that the shrinage of the warp and weft yarns because of finishing process are 12% and 10% respectively.
Fabric Pattern Analysis Selvage of the fabric Ground fabric
Color Plan Weft yarns Warp yarns Selavge yarns Groun yarns color plan Selvage color plan
Color Plan Picking order Warping order
Warpyarncount: Weftyarncount: • Lengthwithoutcripm (cm)Lengthwithoutcripm (cm) • 1. 1. • 2. 2. • 3. 3. • 4. 4. • 5. 5. • 6. 6. • 7. 7. • 8. 8. • 9. 9. • 10. 10. • End fabic warp sett = 30 ends/cm • End fabric weft sett = 28 picks/cm
Warpcrimp (%): Weftcrimp (%): L1 (withoutcripm)L0 (withcripm) Crimp(%)L1 (withoutcripm)L0 (withcripm) Crimp(%) 1. 1. 2. 2. 3. 3. 4. 4. 5. 5. 6. 6. 7. 7. 8. 8. 9. 9. 10. 10. ______________________________________________________________________________________ Average: 9.7 % Average: 11.5 %
Calculation of Fabric Weight per Meter Square Calculation of FabricWeightperMeter
Calculations for Reproduction of The Fabric 10 100 15 x 2=30 warp yarns for one selvage 1.5 X 30 x 2=60 warp yarns for both elvages ____________ X = 15 dents for selvages Ground warp ends = ∑ warp ends – selvage warp ends = 4800-60= 4740 ends # of dents = 4740/3 =1580 dents for ground 1580 dents + 15x2 dents (for selvages) = 1610 dents 10 cm 100 dents X 1610 dents X = 161 cm => it is taken as 165 cm 165 + 3.5 x 2 (waste for weft yarns) = 172 cm reed width
Calculation of Weft YarnWeight Calculation of WarpYarnWeight
Raw fabric width and length Rawfabric Endfabric
Calculation of FabricProduction n: rotation speed of main shaft (rev/min) b: working width of the weaving machine µ: efficiency of the weaving machine D: number of weft yarn in 10 cm fabric • It is assumedthatthe n=500 rpmandµ=80%