Series Catalog
Ordering Guide
RoHS
Material: Super PFA
+0.2
−0.1
+0.2
−0.1
1.6
±0.15
1
±0.1
±0.1
Metric sizes (TL series) Inch sizes (TIL series)
Tubing model
Nominal diameter
Tubing size
O.D.
(mm)
Thickness
(mm)
Bundle
Straight pipe
Color
Applicable fluid
Applicable fittings
Max.
operating
pressure
(MPa)
Min. bending
radius (mm)
Max. operating temperature (Fixed use)
Material
Basic
diameter
Basic
diameter
Tolerance
10 m
20 m
50 m
100 m
16 m (50 ft)
33 m (100 ft)
2 m
Tolerance
TL0403
–
ø4 x ø3
4
0.5
±0.05
–
–
–
TL0604
–
ø6 x ø4
6
–
–
–
TL0806
–
ø8 x ø6
8
–
–
–
TL1008
–
ø10 x ø8
10
–
–
TL1210
–
ø12 x ø10
12
–
–
TL1916
–
ø19 x ø16
19
1.5
±0.15
–
–
TILB01
1/8"
1/8" x 1/16"
3.18
0.8
±0.08
–
–
–
–
–
TIL05
3/16"
3/16" x 1/8"
4.75
0.8
±0.08
–
TIL07
1/4"
1/4" x 5/32"
6.35
1.2
±0.12
–
TIL11
3/8"
3/8" x 1/4"
9.53
TIL13
1/2"
1/2" x 3/8"
12.7
TIL19
3/4"
3/4" x 5/8"
19.05
TIL25
1"
1" x 7/8"
25.4
–
–
–
TIL01
1/8"
3.18
0.5
±0.05
–
1/8" x 0.086"
±0.1
Translucent (color of material)
Refer to the applicable fluid in page 511.
Fluoropolymer Fittings LQ series
260°C
Super PFA
2R
Series and Specifications
How to measure the
minimum bending radius
At a temperature of 20°C,
bend the tubing into a U
shape. Fix one end and
gradually move the other
end closer. Measure 2R
at the point where the
outside diameter’s rate of
change is 5%.
Tubing Model
Eluting fluorine ion amount
Note 6)
Type
Eluting amount
Fluorine ion
0.1 or less
Eluting metal ion amount
Note 6)
Type
Eluting amount
Al
4.5
Fe
0.3
Ni
0.2
Na
7.1
Ca
1.3
Length
Symbol
10
20
50
100
Type
Roll
Length
10 m
20 m
50 m
100 m
Symbol
16
33
Type
Roll
Length
16 m (50 ft)
33 m (100 ft)
Applicable to both
metric and inch size
Length
Applicable to inch size only
Straight 2 m
2S
TIL01
20
20
TL0604
Metric sizes
Inch sizes
How to Order
Burst pressure drop curve
1.0
0.8
0.6
0.4
0.2
0
20 40 60 80
100 120 140 160 180
200 220 240 260
Temperature (°C)
Burst pressure drop coefficient
A 15 g piece of fluororesin tubing is cut off, washed
in DI water (puer water) and immersed in 15 mL of
25% methyl alcohol extract at room temperature for
24 hours. Then the extract is diluted with DI water
(puer water) to be subjected to a quantitative
analysis of fluorine ions.
The interior of the fluororesin tubing is washed with super deionized
water. Approximately 20 g of super high purity hydrofluoric acid (48%)
is measured and injected into the tubing. The interior wall of the
tubing is immersed at normal temperature for one week with both
ends of the tubing plugged. Then the extract was diluted with super
deionized water to be subjected to a quantitative analysis on Al, Fe,
Ni, Na and Ca by the stripping method.
Please refer to the “Series and Specifications”
above, as the tubing length differs depending
on each size.
High Purity
Fluoropolymer Tubing
TL/TIL Series
Note 6) Figures shown in tables are representative
values, not guaranteed values.
Note 1) When using the product at a temperature other than those shown in the table above, use it at a maximum operating pressure or less that is calculated from the following formula.
(Max. operating pressure) = 1/4 x (burst pressure drop coefficient) x (burst pressure at 20°C)
Note 2) When using a fluid in liquid form, the surge pressure must be no more than the maximum operating pressure. A surge pressure higher than the maximum operating pressure can
cause breakage of the fitting or bursting of the tubing. Furthermore, abnormal temperature rise caused by adiabatic compression may result in the tube bursting.
Note 3) Do not use this product in a manner in which the tube is not fixed. Observe the lesser value of the maximum operating pressure between the tubing and fitting. A material change
over a long duration or due to high-temperature may cause leakage. Perform periodic maintenance and replace with a new product immediately when abnormalities are detected.
(Refer to “Maintenance” of the tubing precautions on page 514.)
For other precautions, refer to “Fittings & Tubing Precautions” on pages 13 to 17. When using the fluoropolymer fittings, refer to the precautions on pages 445 and 446.
Note4)Minimum bendingradiusismeasured asshownleftas representativevalues.•Use atubeabovethe recommendedminimumbendingradius.•Thetube maybebentif used
undertherecommendedminimumbendingradius.Therefore,refertothetubeclosebendradiusandmakesurethatthetubeisnotbentorflattened.•Pleasenotethatthetube
close bend radius is not warranted because of the value when 2R is measured by the method in the right figure if the tube is bent or flattened, etc. •Theminimumbendingradius
shown above does not apply to the straight pipe (2 m).
Note 5) As for other commercial items, there are some cases it is not able to connect due to tolerance of dimensions.
Fixed side
(µg/g)
(ng/cm
2
)
Burst pressure (MPa at 20°C)
20°C
100°C
200°C
260°C
Recommended radius
Tube close bend radius
1.0
0.45
0.21
0.09
4.9
35
20
1.0
0.64
0.29
0.12
6.9
35
20
1.0
0.43
0.20
0.08
4.7
60
40
0.9
0.33
0.15
0.06
3.6
100
65
0.7
0.27
0.12
0.05
2.9
130
110
0.6
0.24
0.11
0.05
2.6
220
160
1.0
0.59
0.27
0.11
6.4
20
12
1.0
0.92
0.42
0.17
9.9
10
6
1.0
0.62
0.28
0.12
6.7
25
20
1.0
0.73
0.34
0.14
7.9
35
20
1.0
0.62
0.28
0.12
6.7
60
30
1.0
0.43
0.20
0.08
4.6
95
60
0.7
0.26
0.12
0.05
2.8
220
160
0.5
0.19
0.09
0.04
2.0
400
290
502