A n n e x -A C ir c u it D ia g ra m f o r S F T C o n tr o l U n it
K M 1 B o rn ie r L
12N
2L
11N
1L
1N P e P e M o te u r
U V W
L
14N
4D
0D
1D
2X
1X
1K M 1
A
1A
2S
2S
1A U X
2k
m1X
3X
2X
3S
1A U S
2H
1k
m1X
4X
5X
4X
5H
1C âb le d ’a li m en ta ti o n
L
1N P e
D
5L
17N
7- A li m H U B U S B D U B -H 7
L
11N E n p ro ve n a n ce d u H U B U S B D U B -H 7 (R C S o ft w a re )
In te rf ac e N °1 ( in p u ts ) 0 2 2 4 9 6 1 0 0 1 C o d eu r ) R OL R
P e P e
In te rf ac e N °2 (o u tp u ts ) 0 2 2 4 9 6 1 0 0 1 L
13N
3L
1N S C O N D ri ve V W U
I / O
(9)S IO
(11)E C
(14)M o to r
(6)P o w er
(7)L
11N
10 2 -A 1 0 2 -A 1
0 5 - E 1 0 6 – E 1 0 8 -A 1
0 1 -D 2
P IO S C O N C â b le ( A /B )
P IO S C O N C â b le ( A ) 0 8 – F 1
C â b le R S 4 8 5 / D in + A d a p te r R C B -C V -U S B + C â b le U S B 2 _ A /B
T yp e D in
L
18N
81 1 1 2
3 3
4 4
4 5
5
10 10
10 10
105
1 4
k
a1 _ _0 1 -C 7 k
m1 _ _0 1 -D 6
P ri se (P 1 ) 2 P + P e P IO S C O N C â b le ( B ) P e
Q
10F
10L
15N
5+ 2 4 V - X
6X
7L
1tN
tA li m en ta ti o n ca p te u r d e fo rc e F N 3 1 4 8
X
10X
11X
10X
11X
13X
12) R OL R
V er s en tr ée s a n a lo g iq u es ca rt e N I U S B -6 2 1 1
0 4 - A 1 0 4 - B 1 0 3 -F 1 0 3 - F 1
M a ss e m es u re d ép la ce m en t S ig n a l m es u re d ép la ce m en t M a ss e m es u re F o rc e S ig n a l m es u re F o rc e
V er s co n d it io n n eu r A R D 1 5 4 p o u r le c a p te u r d e fo rc e
0 1 -B 1 0 1 -C 1 0 3 - B 1 0 3 -A 1
+ 2 4 V -
M - M + B o rn ie r X
6X
7+ 2 4 V - A li m en ta ti o n C ap te u r d e d ép la ce m en t P C R 2 1
X
8X
9- S ig n al C ap te u r d e d ép la ce m en t P C R 2 1 +
X
10X
11+ 2 4 V -
X
12X
13- S ig n al ca p te u r d e fo rc e F N 3 1 4 8 +
A L 1 : A li m en ta ti o n ca p te u rs
0 7 -A 1 0 7 -A 1
L
1tN
t) R OL R
0 2 -D 6
0 2 -E 6 + 2 4 V
-
Power OUTA + A - M + M -
S + S -
V s G N D
2 4 V 0 V 0 2 -C 6 0 2 -C 6 P ro ve n a n ce d u ca p te u r d e fo rc e F N 3 1 4 8
0 4 - F 1
0 4 - F 1 A R D 1 5 4
A m p li fi ca te u r - co n d it io n n eu r M a ss e m es u re F o rc e / M -
S ig n a l m es u re F o rc e / M +
V s G N D
V er s en tr ée s a n a lo g iq u es ca rt e N I U S B -6 2 1 1
0 1 -D 2
P e + 2 4 V - P e
) R OL R
0 2 -D 6
0 2 -E 6 0 2 -C 6 0 2 -C 6 P ro ve n a n ce d u co n d it io n n eu r A R D 1 5 4 G N D
V s
M a ss e m es u re d ép la ce m en t S ig n a l m es u re d ép la ce m en t P ro ve n a n ce d u ca p te u r d e d ép la ce m en t P C R 2 1 E n tr ée s a n a lo g iq u es
A I
GND(2 8 )
N I U S B -621 1 A I
10(2 0 )
A I
9(1 8 ) D ép la ce m en t F o rc e
S o rt ie s T O R
E n tr ée s T O R S o rt ie s A n a lo g iq u es E n tr ée s a n a lo g iq u es
0 8 -E 1 V er s H U B U S B D U B -H 7 (E n tr ée s L a b vi ew )
C â b le U S B 2 _ A /B T yp e B
) R OL R
19 17 15 13 1 1 9 7 5 3 1
20 18 16 14 12 10 8 6 4 2 C onne ct eur H E 20
In te rf a ce 0 2 2 4 9 6 1 0 0 1 IN T E R F A C E N °1 ( in p u ts ) 0 2 2 4 9 6 1 0 0 1 In p u ts v a ri a te u r S C O N / C a rt e N I U S B 6 5 2 5
0 1 -C 3
(2 0 ) (1 9 ) (1 6 ) (1 5 ) (4 ) (3 ) (2 ) (1 )
2 4 V (2 A ) ( 2 0 ) 2 4 V (1 A ) ( 1 9 ) P C 1 (5 A ) ( 1 6 ) P C 2 (6 A ) (1 5 ) P a u se ( 1 7 A ) (4 ) S ta rt (1 8 A ) ( 3 ) R es et ( 1 9 A ) ( 2 ) S er vo _ O n ( 2 0 A ) ( 1 ) S C O N / In te rf a ce E n p ro ve n a n ce d e la ca rt e N I U S B -6 5 2 5
0 7 -C 1 0 7 – D 1 0 7 -D 1 0 7 - E 1 0 7 - E 1 0 7 - E 1 0 7 -F 1 0 7 - F 1 V er s I/ O c o n n ec te u r (9 ) P a rt ie A P IO S C O N C â b le P a rt ie A
IN T E R F A C E N °1
) R OL R
19 17 15 13 1 1 9 7 5 3 1
20 18 16 14 12 10 8 6 4 2 C onne ct eur H E 20
In te rf a ce 0 2 2 4 9 6 1 0 0 1 IN T E R F A C E N °2 ( o u tp u ts ) 0 2 2 4 9 6 1 0 0 1 O u p u ts v a ri a te u r S C O N / _ _ _ _ _ _ _ _
P IO S C O N C â b le 0 1 -C 3
P en d (1 2 B ) ( 9 ) (n o n e xp lo it é) 0 V (1 9 B ) (2 ) 0 V (2 0 B ) ( 1 )
S C O N / In te rf a ce (2 ) (1 )
0 7 -B 1 IN T E R F A C E N °2
) R OL R
C a rt e R el a is N I U S B -6 5 2 5
A L 2 : A li m en ta ti o n C a rt e N I U S B -6 5 2 5
L
1TN
1T0 2 -A 1 0 2 -A 1 P 0 .0 A P 0 .0 B P 0 .1 A P 0 .1 B
0 6 -B 7 0 5 -B 7 0 5 -B 7 0 5 -B 7 E n d ir ec ti o n d e l’ in te rf a ce N °1 0 2 2 4 9 6 1 0 0 1
0 5 -B 7 0 5 -B 7 0 5 -B 7
P C 1 P C 2 P a u se S ta rt R es et S er vo _ o n
0 V
2 4 V P 0 .2 A P 0 .2 B P 0 .3 A P 0 .3 B P 0 .4 A P 0 .4 B P 0 .5 A P 0 .5 B
E n d ir ec ti o n d e l’ in te rf a ce N °2 - 0 2 2 4 9 6 1 0 0 1 0 6 -B 7 2 4 V
0 6 -B 7 2 4 V
0 8 -E 1 E n p ro ve n a n ce d u H U B U S B D U B -H 7 (P il o ta g e p a r so rt ie s L a b vi ew )
C â b le U S B 2 _ A /B T yp e B
) R OL R
V er s P c N
8L
180 1 -A 1 0 1 -A 1
T ra n sf o rm at eu r 2 2 0 V / 5 V – 3 A
C â b le U S B 2 _ A /B T yp e B
T yp e A T yp e B
C â b le U S B 2 _ A /B T yp e A T ra ve rs ée d e p a ro i d ro it e d u c o ff re t (P X 0 8 4 2 / B ) 0 4 -A 7
E n p ro ve n a n ce d e la c a rt e N I U S B -6 2 1 1 ( ca p te u rs p o u r en tr ée s L a b vi ew ) 0 7 -A 4
V er s la c a rt e N I- 6 5 2 5 ( p il o ta g e d es r el a is p a r so rt ie s L a b vi ew
C â b le U S B 2 _ A /B C â b le U S B 2 _ A /B
U S B T yp e A
U S B T yp e A T yp e A 0 4 -A 7
V er s co n n ec te u r S IO
(11)va ri a te u r S C O N C â b le R S 4 8 5 / D in
U S B T yp e A U S B T yp e B
A d ap ta te u r R S 4 8 5 / U S B 2 _ B (R C B -C V -U S B )
) R OL R
H 0 A U
S 1 S 2 /H 1
C o n n ec te u r U S B T yp e B
) R OL R
D 1 D 0 D 2 D 3 P 1 A L 2 A L 1 T F 1 0 K M 1
In te rf a ce N °1 In te rf a ce N °2
A R D 1 5 4
S C O N N I- 6 2 1 0 N I- 6 5 2 5
) R OL R
B o rn ie r d e ra cc o rd em en t L
1N P e P e M o te u r
U V W C âb le d ’a li m en ta ti o n
L
1N P e C o d eu r
A U
X
1X
2X
3S
1S
2X
4X
5H
11 2
3 3
4 4
510 10
X
6X
7+ 2 4 V - A li m en ta ti o n C ap te u r d e d ép la ce m en t P C R 2 1
X
8X
9- S ig n al C ap te u r d e d ép la ce m en t P C R 2 1 +
X
10X
11+ 2 4 V -
X
12X
13- + A li m en ta ti o n ca p te u r d e fo rc e F N 3 1 4 8
S ig n al ca p te u r d e fo rc e F N 3 1 4 8
Annex-B
Static Friction Tester Measurement Protocol
Static Friction Tester Measurement Protocol
A protocol is defined to operate and perform inter-fibre measurement on the modified Static Friction Tester. The step wise procedure is given below:
1) Plug the control unit into power supply.
2) Turn on the computer. The computer must have Labview software and the linear actuator software (RC PC software) installed on it.
3) Connect the USB connecter of the control unit to the computer.
4) Run RC PC software. The software will check for the connected axes as shown in the Figure 3.16.
Figure 3-16. Checking for Connected Axes
5) As the check for the connected axis is completed, the main window is displayed, and at the same time, a window to select manual operation mode is displayed.
6) Select Teach mode 1 (Safety speed effective/PIO start prohibition) and press “OK”
7) The main window consists of main menu, toolbar buttons, tree view and status bar.
8) Double click on the axis in the tree menu and then double click on the
position data. A window will appear as show in the Figure 3-17.
Figure 3-17. Position Data
9) The linear actuator is installed in the reverse direction. The initial position will be 64.50mm. Put this value in row “1” under column “Position”. The final position will be 10 mm put it in row “0” under column “Position”. The speed for the test must be very slow. The speed will be 0.35 mm/sec. Put this value in the initial value in the adjacent cell to the final position. The reverse movement can be of high speed. So put 20 mm/sec in the cell adjacent to initial position.
10) Send the position data to the controller. Click “Position” and then select
“Send to Controller” from the main menu.
11) Click the “Servo” button and then click the “Home” button. The linear actuator will do the home run. Now click the initial position and click one step button. The actuator will return to the initial position. All these buttons are shown in the Figure 3-18.
Figure 3-18. Position Data Tools Bar
12) From the “Manual Operation Mode” drop down menu, select “Monitor 1 (Safety speed effective/PIO start permission)”.
13) Put double sided scotch in the canal and on the upper part of the clamps.
Cover it with a thin layer of cotton to be tested. The scotch must be changed for each new cotton.
14) Run the Labview software.
15) A pop up window will appear as shown in the Figure 3-19.
One Step Button
Figure 3-19. Labview Pop Up
16) Click on the open button and select SFT VI from its location.
17) Place a cotton sliver sample of about 25 cm length in the canal and cover it with the upper part.
18) Place the same mass on the two clamps.
19) Run SFT VI by clicking run button on the VI front panel.
20) A window will pop up prompting to choose a file name for the stored data.
Put the desired name and click OK
21) Click on the “Servo ON”, “Pause” and “Start” button on the VI front panel in the given order to start the test (If the LED in the button is on it means that the function is also in on position).
22) As the actuator reaches the final position it will stop automatically. Click on “Pause” and “Start” button.
23) Remove the masses from the clamps.
24) The protruding fibres from both the clamps are cut with the help of a sharp scissors.
25) The cut fibres are weighed on an accurate balance that gave the value up to four decimal points.
26) Remove the clamp upper part and clean the clamps from the tested sliver sample.
27) Click on the “PC1”, “Pause” and “Start” button on the VI front panel in the given order to start the reverse motion. The linear actuator will stop as it reaches the initial position.
28) To perform measurement repetition of the same cotton. Repeat the steps
29) To test the new cotton, just add the step 13 before the steps from 17 to 27. The step 13 must be added for only the first test of every new cotton.
The complete operating procedure of modified Static friction Tester is explained
in detail. The SFT can be operated easily.
Annex-C
Fibre Statistical Analysis
Analysis of L (w) By Cottons
22 23 24 25 26 27 28 29 30
L ( w ) C 0 1 C 0 2 C 0 3 C 0 4 C 0 5 C 0 6 C 0 7 C 0 8 C 0 9 C 1 0 C 1 1 C 1 2 C 1 3 C 1 4 C 1 5 C 1 6 C 1 7 C 1 8 C 1 9 C 2 0 C 2 1 C 2 2 C 2 3 C 2 5 C 2 6 C 2 7 C 2 8 C 2 9 C 3 0 C 3 2
Cottons
Each Pair Student's t
0.05
Level Cotton Groups based on Length (w) Mean Std Dev
C01 A 29.300000 0.254951
C08 B 28.880000 0.268328
C32 B 28.860000 0.207364
C09 C 28.060000 0.250998
C07 C 28.000000 0.223607
C13 D 27.520000 0.109545
C16 D 27.520000 0.268328
C25 D E 27.360000 0.207364
C05 D E F 27.280000 0.311448
C30 E F 27.220000 0.319374
C04 E F 27.180000 0.294958
C10 E F G 27.100000 0.122474
C12 E F G 27.100000 0.200000
C19 F G 27.000000 0.158114
C17 G H 26.880000 0.248998
C27 G H 26.820000 0.130384
C03 H I 26.620000 0.148324
C15 I 26.480000 0.216795
C26 J 26.080000 0.192354
C11 K 25.640000 0.151658
C29 K L 25.600000 0.200000
C02 K L M 25.420000 0.216795
C14 L M 25.340000 0.219089
C20 M 25.260000 0.240832
C28 M 25.160000 0.207364
C23 N 24.760000 0.207364
C21 O 24.320000 0.164317
C06 P 23.980000 0.216795
C18 Q 23.340000 0.194936
C22 R 22.840000 0.357771
Levels not connected by same letter are significantly different.
Analysis of SFC(w) By Cottons
2 3 4 5 6 7 8 9 10
S F C (w ) C 0 1 C 0 2 C 0 3 C 0 4 C 0 5 C 0 6 C 0 7 C 0 8 C 0 9 C 1 0 C 1 1 C 1 2 C 1 3 C 1 4 C 1 5 C 1 6 C 1 7 C 1 8 C 1 9 C 2 0 C 2 1 C 2 2 C 2 3 C 2 5 C 2 6 C 2 7 C 2 8 C 2 9 C 3 0 C 3 2
Cottons
Each Pair Student's t
0.05
Level Cotton Groups based on SFC (w) Mean Std Dev
C22 A 8.6200000 0.91488
C06 A B 8.0400000 0.90167
C21 A B 8.0000000 0.74833
C18 B C 7.7200000 0.70852
C02 C D 7.2400000 0.42190
C23 C D 7.0600000 0.61887
C14 D E 6.8200000 0.39623
C20 E F 6.3400000 0.58992
C26 F G 5.9400000 0.50794
C10 G 5.6000000 0.61237
C28 G H 5.4600000 0.66558
C03 G H I 5.3600000 0.53666
C30 G H I 5.3400000 1.10136
C16 H I J 4.8400000 0.27019
C29 I J 4.7200000 0.40866
C11 J K 4.5600000 0.51284
C07 J K 4.5600000 0.90167
C04 J K 4.5400000 0.51284
C05 J K 4.5400000 0.59414
C09 J K L 4.3000000 0.59582
C13 J K L M 4.1800000 0.13038
C01 J K L M 4.1400000 0.38471
C12 K L M 3.9800000 0.13038
C27 K L M 3.9800000 0.62209
C17 K L M 3.9400000 0.40373
C19 K L M 3.9400000 0.32863
C32 L M 3.8000000 0.52440
C15 L M N 3.6600000 0.27928
C08 M N 3.5400000 0.27019
C25 N 3.0000000 0.30822
Levels not connected by same letter are significantly different.
Analysis of UQL (w) By Cottons
26 27 28 29 30 31 32 33 34 35 36
U Q L ( w ) C 0 1 C 0 2 C 0 3 C 0 4 C 0 5 C 0 6 C 0 7 C 0 8 C 0 9 C 1 0 C 1 1 C 1 2 C 1 3 C 1 4 C 1 5 C 1 6 C 1 7 C 1 8 C 1 9 C 2 0 C 2 1 C 2 2 C 2 3 C 2 5 C 2 6 C 2 7 C 2 8 C 2 9 C 3 0 C 3 2
Cottons
Each Pair Student's t
0.05
Level Cotton Groups based on UQL (w) Mean Std Dev
C01 A 34.800000 0.282843
C08 B 33.740000 0.250998
C32 B 33.620000 0.044721
C07 C 33.000000 0.122474
C09 C 32.900000 0.187083
C10 D 32.420000 0.228035
C16 D 32.420000 0.303315
C30 D 32.400000 0.273861
C13 D 32.320000 0.164317
C05 E 31.920000 0.238747
C04 F 31.580000 0.268328
C03 F G 31.420000 0.178885
C12 F G 31.380000 0.258844
C25 F G 31.360000 0.207364
C17 G H 31.200000 0.100000
C19 H I 31.060000 0.151658
C27 I 30.880000 0.148324
C26 I 30.860000 0.207364
C02 J 30.600000 0.273861
C15 J K 30.420000 0.268328
C14 K 30.280000 0.109545
C29 L 29.820000 0.216795
C20 L M 29.640000 0.270185
C11 M N 29.480000 0.164317
C28 N 29.260000 0.167332
C23 N 29.260000 0.151658
C21 O 28.920000 0.164317
C06 P 28.620000 0.109545
C18 Q 27.720000 0.148324
C22 R 27.080000 0.238747
Levels not connected by same letter are significantly different.
Analysis of IFC By Cottons
4 5 6 7 8 9 10 11 12 13 14
IF C C 0 1 C 0 2 C 0 3 C 0 4 C 0 5 C 0 6 C 0 7 C 0 8 C 0 9 C 1 0 C 1 1 C 1 2 C 1 3 C 1 4 C 1 5 C 1 6 C 1 7 C 1 8 C 1 9 C 2 0 C 2 1 C 2 2 C 2 3 C 2 5 C 2 6 C 2 7 C 2 8 C 2 9 C 3 0 C 3 2
Cottons
Each Pair Student's t
0.05
Level Cotton Groups based on IFC Mean Std Dev
C22 A 12.040000 1.00150
C23 A B 11.480000 0.50695
C20 B C 10.740000 0.86197
C26 B C 10.640000 0.28810
C21 C D 10.500000 0.67082
C10 C D E 10.420000 0.88148
C16 C D E F 10.320000 0.83487
C07 C D E F 10.300000 0.64031
C18 C D E F 10.300000 0.44159
C14 C D E F G 9.900000 0.62048
C06 D E F G 9.620000 0.95760
C08 E F G H 9.520000 0.64187
C01 E F G H 9.500000 0.77136
C03 F G H 9.460000 0.76026
C02 F G H 9.420000 0.56745
C05 G H 9.140000 0.92898
C30 G H I 9.060000 0.95289
C15 G H I J 8.980000 0.53572
C04 G H I J 8.960000 0.98133
C28 H I J 8.660000 1.18025
C12 H I J 8.600000 1.18743
C11 I J K 8.120000 1.01341
C13 J K 8.080000 0.51672
C09 J K 8.040000 1.02127
C32 K 7.220000 0.64962
C25 L 6.260000 0.63482
C19 L 6.240000 0.39115
C27 L 6.240000 0.33615
C29 L 5.700000 0.25495
C17 L 5.480000 0.46043
Levels not connected by same letter are significantly different.
Analysis of Neps Content By Cottons
20 40 60 80 100 120 140 160 180 200
N e p C n t C 0 1 C 0 2 C 0 3 C 0 4 C 0 5 C 0 6 C 0 7 C 0 8 C 0 9 C 1 0 C 1 1 C 1 2 C 1 3 C 1 4 C 1 5 C 1 6 C 1 7 C 1 8 C 1 9 C 2 0 C 2 1 C 2 2 C 2 3 C 2 5 C 2 6 C 2 7 C 2 8 C 2 9 C 3 0 C 3 2
Cottons
Each Pair Student's t
0.05
Level Cotton Groups based on Neps Content Mean Std Dev
C13 A 161.20000 26.6964
C14 A B 148.40000 10.9909
C02 B C 140.20000 12.4177
C12 C 127.40000 3.2094
C01 C 125.80000 16.5439
C18 D 104.20000 19.1625
C30 E 87.00000 17.4356
C28 E 83.60000 10.9681
C05 E F 81.20000 11.3886
C16 E F G 74.60000 11.8448
C06 E F G 74.40000 13.1453
C08 E F G 71.00000 10.0250
C17 F G H 67.20000 18.7803
C19 F G H I 65.20000 15.0566
C03 G H I J 59.60000 12.1984
C07 G H I J 58.80000 18.0333
C32 G H I J 58.60000 17.9527
C27 H I J 54.80000 6.6483
C15 H I J K 53.80000 9.0111
C09 H I J K 52.40000 6.0249
C26 I J K L 50.60000 13.5573
C20 J K L M 48.40000 11.1714
C11 J K L M 47.80000 13.4796
C23 J K L M 43.60000 8.5323
C22 K L M 38.40000 7.2319
C04 K L M 38.20000 3.2711
C21 L M 36.20000 4.4385
C25 L M 35.00000 6.3246
C10 M 32.40000 10.2372
C29 M 32.40000 2.6077
Levels not connected by same letter are significantly different.
Analysis of SCN Content By Cottons
0 10 20 30 40 50 60 70
S C N C n t C 0 1 C 0 2 C 0 3 C 0 4 C 0 5 C 0 6 C 0 7 C 0 8 C 0 9 C 1 0 C 1 1 C 1 2 C 1 3 C 1 4 C 1 5 C 1 6 C 1 7 C 1 8 C 1 9 C 2 0 C 2 1 C 2 2 C 2 3 C 2 5 C 2 6 C 2 7 C 2 8 C 2 9 C 3 0 C 3 2
Cottons
Each Pair Student's t
0.05
Level Cotton Groups based on SCN Content Mean Std Dev
C13 A 53.000000 10.4163
C12 A 51.600000 8.1731
C02 B 40.200000 11.5195
C14 B C 38.800000 5.2631
C17 B C 35.400000 10.7378
C05 C D 31.800000 7.8549
C01 D E 26.000000 10.1242
C32 E F 21.200000 8.3187
C30 E F G 19.800000 6.6106
C19 E F G 19.400000 6.6558
C27 E F G H 18.400000 4.5056
C20 E F G H I 18.000000 5.1478
C06 F G H I J 16.800000 6.3403
C07 F G H I J K 15.600000 6.1074
C03 F G H I J K 15.200000 6.9426
C16 F G H I J K L 14.800000 6.0166
C25 F G H I J K L 14.600000 4.6152
C23 F G H I J K L 14.400000 6.0663
C08 F G H I J K L 14.000000 5.0000
C09 G H I J K L 12.400000 7.1972
C28 G H I J K L 11.800000 3.7014
C11 G H I J K L 11.800000 4.7645
C21 H I J K L 10.600000 4.1593
C15 H I J K L 10.600000 3.3615
C26 I J K L 9.800000 5.0200
C18 J K L 9.200000 4.0866
C04 J K L 8.800000 1.3038
C29 K L 8.400000 2.3022
C10 K L 8.000000 3.8730
C22 L 6.600000 6.6933
Levels not connected by same letter are significantly different.
Analysis of Trash Content By Cottons
0 5 10 15 20 25 30 35 40 45
T ra s h C n t C 0 1 C 0 2 C 0 3 C 0 4 C 0 5 C 0 6 C 0 7 C 0 8 C 0 9 C 1 0 C 1 1 C 1 2 C 1 3 C 1 4 C 1 5 C 1 6 C 1 7 C 1 8 C 1 9 C 2 0 C 2 1 C 2 2 C 2 3 C 2 5 C 2 6 C 2 7 C 2 8 C 2 9 C 3 0 C 3 2
Cottons
Each Pair Student's t
0.05
Level Cotton Groups based on Trash Content Mean Std Dev
C14 A 30.600000 5.2726
C02 A B 29.600000 5.0299
C15 A B C 28.600000 9.2628
C28 A B C D 24.600000 12.5419
C12 B C D E 21.800000 12.7750
C03 B C D E 21.600000 5.2249
C05 C D E F 20.800000 8.9275
C17 C D E F 20.400000 5.5045
C13 D E F G 19.800000 5.6745
C01 D E F G H 19.400000 6.8775
C23 D E F G H I 19.000000 6.9642
C21 D E F G H I J 18.000000 5.6569
C18 D E F G H I J 17.600000 3.9749
C04 D E F G H I J 17.400000 11.0589
C06 D E F G H I J 17.400000 4.2778
C08 D E F G H I J 17.000000 8.8600
C30 D E F G H I J K 16.600000 5.4129
C16 E F G H I J K L 15.600000 7.9875
C32 E F G H I J K L 15.400000 3.5071
C09 E F G H I J K L 15.400000 5.7706
C26 E F G H I J K L 14.600000 3.5777
C11 E F G H I J K L 14.400000 6.6933
C10 E F G H I J K L 14.000000 6.1237
C19 F G H I J K L 12.400000 4.1593
C22 G H I J K L 11.400000 7.4364
C29 H I J K L 11.000000 3.6742
C25 I J K L 10.600000 4.0373
C20 J K L 10.200000 3.5637
C07 K L 8.200000 5.0200
C27 L 7.600000 4.2190
Levels not connected by same letter are significantly different.
Analysis of UHML By Cottons
25 26 27 28 29 30 31 32
U H M L C 0 1 C 0 2 C 0 3 C 0 4 C 0 5 C 0 6 C 0 7 C 0 8 C 0 9 C 1 0 C 1 1 C 1 2 C 1 3 C 1 4 C 1 5 C 1 6 C 1 7 C 1 8 C 1 9 C 2 0 C 2 1 C 2 2 C 2 3 C 2 5 C 2 6 C 2 7 C 2 8 C 2 9 C 3 0 C 3 2
Cottons
Each Pair Student's t
0.05
Cottons Cotton Groups based on UHML Mean Std Dev
C01 A 31.560197 0.38369
C32 B 30.616667 0.20412
C16 C 29.871373 0.28418
C07 C D 29.715713 0.13877
C09 C D E 29.634427 0.38691
C13 C D E F 29.607963 0.48176
C08 D E F 29.293838 0.61323
C30 E F 29.159937 0.42412
C10 F 29.142285 0.43086
C05 G 28.468763 0.25751
C17 G H 28.438517 0.25010
C04 G H 28.402282 0.38054
C03 G H 28.385400 0.16201
C02 G H I 28.149115 0.29521
C12 G H I 28.142898 0.26713
C25 G H I 28.094317 0.32280
C26 H I J 27.960277 0.45128
C19 I J K 27.841408 0.25988
C15 J K L 27.571603 0.48479
C14 K L M 27.402472 0.32715
C20 L M N 27.280632 1.29004
C27 L M N 27.163187 0.50640
C23 M N 27.020097 0.49249
C29 M N O 26.929040 0.32890
C11 N O P 26.835917 0.27046
C28 O P 26.469703 0.25066
C21 P 26.414518 0.62425
C06 P 26.352980 0.12191
C22 Q 25.269575 0.28100
C18 Q 25.195092 0.16748
Levels not connected by same letter are significantly different.
Analysis of UI% By Cottons
77 78 79 80 81 82 83 84 85
U I% C 0 1 C 0 2 C 0 3 C 0 4 C 0 5 C 0 6 C 0 7 C 0 8 C 0 9 C 1 0 C 1 1 C 1 2 C 1 3 C 1 4 C 1 5 C 1 6 C 1 7 C 1 8 C 1 9 C 2 0 C 2 1 C 2 2 C 2 3 C 2 5 C 2 6 C 2 7 C 2 8 C 2 9 C 3 0 C 3 2
Cottons
Each Pair Student's t
0.05
Level Cotton Groups based on Uniformity Index (UI%) Mean Std Dev
C32 A 84.566667 0.57850
C04 A B 83.825382 0.43450
C01 A B C 83.569247 0.70269
C09 B C D 83.207183 0.68825
C19 B C D 82.891250 0.67630
C13 C D E 82.627583 0.43555
C07 C D E 82.540545 0.62314
C17 C D E 82.533177 0.49655
C25 C D E F 82.488353 1.66260
C08 D E F 82.445462 0.66176
C03 D E F 82.426402 0.44228
C16 D E F G 82.411160 0.44606
C15 D E F G 82.383092 0.22906
C12 D E F G 82.322122 0.63746
C10 D E F G H 82.148017 2.26944
C05 E F G H I 81.517485 1.20916
C27 F G H I 81.412882 1.06710
C11 G H I 81.306038 0.59095
C20 H I 81.155442 1.96402
C23 H I J 81.069857 1.18793
C21 I J K 80.885993 1.27269
C30 I J K 80.818938 0.53839
C29 I J K 80.677958 0.77004
C14 I J K L 80.440938 0.77066
C28 J K L M 80.002197 0.44515
C26 J K L M 79.955320 1.26667
C02 K L M 79.909325 1.27297
C06 L M 79.374528 1.13486
C22 M N 79.287333 0.64331
C18 N 78.187592 0.57741
Levels not connected by same letter are significantly different.
Analysis of Elongation By Cottons
5 6 7 8 9
E lo n g a tio n C 0 1 C 0 2 C 0 3 C 0 4 C 0 5 C 0 6 C 0 7 C 0 8 C 0 9 C 1 0 C 1 1 C 1 2 C 1 3 C 1 4 C 1 5 C 1 6 C 1 7 C 1 8 C 1 9 C 2 0 C 2 1 C 2 2 C 2 3 C 2 5 C 2 6 C 2 7 C 2 8 C 2 9 C 3 0 C 3 2
Cottons
Each Pair Student's t
0.05
Level Cotton Groups based on Fibre Elongation Mean Std Dev
C18 A 8.3592932 0.365813
C05 A 8.2855677 0.375132
C03 B 7.8971305 0.165883
C28 C 7.5485367 0.154325
C02 C 7.5133518 0.341869
C07 C 7.4133005 0.264763
C14 C 7.3390910 0.148523
C10 D 7.0096618 0.165181
C26 D 6.9475172 0.179351
C13 D E 6.7834348 0.139729
C04 D E 6.7657358 0.290570
C15 E 6.6224077 0.093912
C01 E F 6.6062962 0.355228
C11 F G 6.3578763 0.228087
C12 G H 6.3325502 0.139872
C17 G H I 6.2673327 0.110352
C25 G H I J 6.2176128 0.364316
C20 G H I J K 6.1517228 0.102769
C06 H I J K L 6.0939763 0.216931
C09 I J K L 6.0636798 0.175281
C21 I J K L M 6.0341857 0.271955
C23 J K L M 6.0107693 0.265278
C22 K L M 5.9591617 0.228648
C08 K L M 5.9055817 0.174102
C29 K L M 5.8971925 0.101166
C16 L M N 5.8598250 0.184807
C27 M N 5.7816103 0.132194
C19 N O 5.6061893 0.142246
C32 O 5.4500000 0.163367
C30 O 5.4217597 0.151658
Levels not connected by same letter are significantly different.
Analysis of -b By Cottons
8 9 10 11 12 13 14
-b C 0 1 C 0 2 C 0 3 C 0 4 C 0 5 C 0 6 C 0 7 C 0 8 C 0 9 C 1 0 C 1 1 C 1 2 C 1 3 C 1 4 C 1 5 C 1 6 C 1 7 C 1 8 C 1 9 C 2 0 C 2 1 C 2 2 C 2 3 C 2 5 C 2 6 C 2 7 C 2 8 C 2 9 C 3 0 C 3 2
Cottons
Each Pair Student's t
0.05
Level Cotton Groups based on –b Value Mean Std Dev
C06 A 14.215408 0.282234
C21 B 13.823212 0.334364
C09 C 13.459100 0.204271
C22 C 13.435745 0.120941
C23 D 12.991015 0.530396
C20 D 12.984967 0.418827
C07 D E 12.910810 0.293003
C29 D E F 12.872727 0.237373
C16 E F G 12.671995 0.189493
C28 F G 12.644948 0.203418
C19 G 12.531255 0.246887
C25 H 12.097268 0.100984
C27 H I 11.897207 0.083874
C26 I 11.725697 0.167385
C30 J 11.187168 0.250982
C08 J 11.162235 0.169606
C03 K 10.793958 0.104336
C12 K 10.732143 0.139226
C05 K 10.635937 0.126281
C11 K 10.592733 0.122619
C13 K 10.576897 0.119842
C32 L 10.100000 0.141421
C02 L 10.075472 0.144191
C01 L M 9.946416 0.203146
C15 L M 9.879021 0.153083
C04 L M 9.874554 0.107947
C17 M 9.712265 0.120747
C18 N 9.016584 0.107389
C14 N O 8.842652 0.155043
C10 O 8.619976 0.141569
Levels not connected by same letter are significantly different.
Analysis of SCF (TRASHCAM) By Cottons
50 100 150 200 250 300 350 400
S C F C 0 1 C 0 2 C 0 3 C 0 4 C 0 5 C 0 6 C 0 7 C 0 8 C 0 9 C 1 0 C 1 1 C 1 2 C 1 3 C 1 4 C 1 5 C 1 6 C 1 7 C 1 8 C 1 9 C 2 0 C 2 1 C 2 2 C 2 3 C 2 5 C 2 6 C 2 7 C 2 8 C 2 9 C 3 0 C 3 2
Cottons
Each Pair Student's t
0.05
Level Cotton Groups based SCF (TRASHCAM Web) Mean Std Dev
C05 A 306.55000 54.8821
C12 B 267.25000 29.9436
C14 B 251.85000 34.2810
C02 B 251.05000 33.2652
C04 C 220.15000 39.2325
C08 C D 212.10000 58.7724
C13 C D E 209.55000 31.6768
C17 C D E 205.00000 35.2987
C01 D E F 194.65000 32.6146
C30 E F 191.00000 36.4908
C03 F G 181.85000 27.3289
C16 F G H 179.70000 27.2225
C15 F G H 178.00000 23.7620
C28 G H I 168.05000 33.4483
C10 H I J 162.05000 40.1057
C20 I J K 157.05000 31.2536
C11 J K L 148.30000 25.7949
C06 J K L M 146.35000 35.1422
C18 J K L M 143.30000 24.4908
C09 K L M 138.90000 24.0589
C19 L M N 133.00000 30.3558
C22 L M N O 132.35000 33.0379
C23 L M N O 131.10000 26.4314
C32 L M N O 129.35000 19.7811
C25 M N O 127.10000 18.3874
C27 N O 117.95000 21.9484
C26 N O 114.35000 19.2744
C21 O P 113.15000 21.1343
C29 P Q 94.10000 21.2105
C07 Q 90.65000 14.4342
Levels not connected by same letter are significantly different.
Annex-D
Yarn Statistical Analysis
Analysis of Yarn CV% for T
115 16 17 18 19 20 21 22 23 24 25
C V m C 0 1 C 0 2 C 0 3 C 0 4 C 0 5 C 0 6 C 0 7 C 0 8 C 0 9 C 1 0 C 1 1 C 1 2 C 1 3 C 1 4 C 1 5 C 1 6 C 1 7 C 1 8 C 1 9 C 2 0 C 2 1 C 2 2 C 2 3 C 2 5 C 2 6 C 2 7 C 2 8 C 2 9 C 3 0 C 3 2
Coton
Analysis of Yarn CV% for T
315 16 17 18 19 20 21 22 23 24 25 26 27
C V m C 0 1 C 0 2 C 0 3 C 0 4 C 0 5 C 0 6 C 0 7 C 0 8 C 0 9 C 1 0 C 1 1 C 1 2 C 1 3 C 1 4 C 1 5 C 1 6 C 1 7 C 1 8 C 1 9 C 2 0 C 2 1 C 2 2 C 2 3 C 2 5 C 2 6 C 2 7 C 2 8 C 2 9 C 3 0 C 3 2
Cotton
Cotton Mean Std Dev C01 17.2842 0.37826 C02 21.2642 0.58393 C03 19.4542 0.45218 C04 16.9217 0.36073 C05 19.5350 0.92236 C06 22.9192 1.13925 C07 18.0392 0.40559 C08 16.4450 0.44600 C09 17.8458 0.46567 C10 19.2758 0.59292 C11 19.3333 0.73163 C12 18.8150 0.48712 C13 18.3042 0.40809 C14 20.8350 0.56722 C15 17.9533 0.44545 C16 17.4242 0.46639 C17 19.3350 0.60369 C18 23.1558 1.07083 C19 19.4025 0.83556 C20 21.4467 0.88578 C21 20.8108 0.92155 C22 21.9083 1.08571 C23 19.8125 0.69286 C25 16.6592 0.57118 C26 18.1867 0.43769 C27 18.6325 0.37734 C28 18.6592 0.57979 C29 19.9933 0.88001 C30 17.7425 0.55074 C32 16.9842 0.47777
Cotton Mean Std Dev
C01 18.5058 2.64207
C02 21.2367 0.73366
C03 19.3425 0.33273
C04 16.8450 0.38932
C05 19.0742 0.44384
C06 23.0067 0.97453
C07 18.0633 0.57384
C08 16.4358 0.46903
C09 17.9267 0.65330
C10 19.0400 0.50319
C11 19.4367 0.58088
C12 18.5533 0.58447
C13 18.4492 0.39643
C14 20.9992 0.53453
C15 18.3742 0.66874
C16 17.5042 0.45046
C17 19.2083 0.40861
C18 24.3617 1.27622
C19 18.9400 0.54072
C20 21.5258 0.92854
C21 21.0633 1.17240
C22 21.4417 1.00699
C23 19.9183 0.40698
C25 16.8442 0.43120
C26 18.6083 0.54964
C27 18.4142 0.33462
C28 18.6242 0.41825
C29 19.8342 0.56595
C30 17.9275 0.54391
Analysis of Yarn Index for T
11.9 2 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3 3.1
In d ic e C 0 1 C 0 2 C 0 3 C 0 4 C 0 5 C 0 6 C 0 7 C 0 8 C 0 9 C 1 0 C 1 1 C 1 2 C 1 3 C 1 4 C 1 5 C 1 6 C 1 7 C 1 8 C 1 9 C 2 0 C 2 1 C 2 2 C 2 3 C 2 5 C 2 6 C 2 7 C 2 8 C 2 9 C 3 0 C 3 2
Cotton
Analysis of Yarn Index for T
32 3
In d ic e C 0 1 C 0 2 C 0 3 C 0 4 C 0 5 C 0 6 C 0 7 C 0 8 C 0 9 C 1 0 C 1 1 C 1 2 C 1 3 C 1 4 C 1 5 C 1 6 C 1 7 C 1 8 C 1 9 C 2 0 C 2 1 C 2 2 C 2 3 C 2 5 C 2 6 C 2 7 C 2 8 C 2 9 C 3 0 C 3 2
Cotton
Cotton Mean Std Dev C01 2.27000 0.049909 C02 2.61750 0.070855 C03 2.30750 0.053619 C04 2.20583 0.046604 C05 2.47250 0.117251 C06 2.86417 0.141322 C07 2.20667 0.049604 C08 2.20500 0.058387 C09 2.15750 0.055942 C10 2.28917 0.066532 C11 2.28000 0.086550 C12 2.23583 0.055343 C13 2.29417 0.051427 C14 2.60417 0.070512 C15 2.17000 0.052223 C16 2.17833 0.059671 C17 2.24750 0.070081 C18 2.69167 0.125758 C19 2.26833 0.097499 C20 2.66750 0.112986 C21 2.61667 0.115549 C22 2.77417 0.137871 C23 2.54083 0.088878 C25 2.07500 0.071414 C26 2.22583 0.052994 C27 2.22083 0.046213 C28 2.27167 0.070818 C29 2.28750 0.100284 C30 2.26083 0.069604 C32 2.05417 0.056481
Cotton Mean Std Dev
C01 2.43083 0.347549
C02 2.61417 0.091000
C03 2.29917 0.039187
C04 2.19750 0.050834
C05 2.41417 0.056802
C06 2.87417 0.121913
C07 2.21000 0.070195
C08 2.20417 0.062444
C09 2.16833 0.078605
C10 2.25667 0.061101
C11 2.29250 0.067437
C12 2.20500 0.068689
C13 2.31333 0.050871
C14 2.62500 0.065989
C15 2.22083 0.079253
C16 2.18750 0.058485
C17 2.23333 0.047162
C18 2.83250 0.149613
C19 2.21167 0.063652
C20 2.67417 0.116655
C21 2.64833 0.147083
C22 2.71500 0.127386
C23 2.55417 0.051954
C25 2.09750 0.054793
C26 2.27667 0.067734
C27 2.19500 0.040788
C28 2.26417 0.052477
C29 2.27000 0.065920
C30 2.28500 0.069216
C32 2.13500 0.112290
Analysis of Yarn U% for T
112 13 14 15 16 17 18 19 20
U m C 0 1 C 0 2 C 0 3 C 0 4 C 0 5 C 0 6 C 0 7 C 0 8 C 0 9 C 1 0 C 1 1 C 1 2 C 1 3 C 1 4 C 1 5 C 1 6 C 1 7 C 1 8 C 1 9 C 2 0 C 2 1 C 2 2 C 2 3 C 2 5 C 2 6 C 2 7 C 2 8 C 2 9 C 3 0 C 3 2
Coton
Analysis of Yarn U% for T
312 13 14 15 16 17 18 19 20 21
Um C01 C02 C03 C04 C05 C06 C07 C08 C09 C10 C11 C12 C13 C14 C15 C16 C17 C18 C19 C20 C21 C22 C23 C25 C26 C27 C28 C29 C30 C32
Cotton