A. Low Pressure UV (Ultraviolet) Germicidal Lamps
┿strong>Description
Low pressure UV germicidal lamp is a kind of short wave low pressure mercury vapor discharge lamps. The excited atom of mercury vapor emits short wave ultraviolet light under the low pressure in the sealed glass tube.
Germicidal lamps should not be confused with fluorescent lamps for while fluorescent lamps are also Low pressure mercury lamps. The fluorescent lamps use less purity normal glass tube which transmit small amount of ultraviolet, the coated phosphor powder inside the glass tube converts the ultraviolet into visible light to illuminate the lamp. While germicidal lamp uses high purity quartz glass tube which transmits the highest possible ultraviolet.
Germicidal lamps can not be confused with sun tanning lamps or black light lamps either, for while these are also ultraviolet tamps, the ultraviolet produced is of longer wavelength and is not useful for germicidal purpose. Germicidal lamps emit short wave ultraviolet that are lethal to microorganism.
┿strong>Germicidal Behavior
It has been many years since it first became necessary to disinfect water and air. At first people choose chemical methods to disinfect water, chlorine in particular. However, scientific research shows that these processes have bad effect on health and environment. Chlorine has reaction with the substances in the water and form residues and by products which do damage to the environment and health. Furthermore, some pathogens have already developed resistance to chlorine, calling into the question the success of the disinfection process.
Today, after many years of research, it has been discovered that the most effective alternative process available to us is the disinfection of water and air using ultraviolet light (UV). Ultraviolet ray is light with very high energy level and a wavelength of 200-400nm. One of the most effective wavelengths for disinfection is that of 254nm. Over 90% of total UV radiation energy is at 254nm. Wavelength of 200-280nm is named JVC. So disinfection using 254nm wavelength is called UVC disinfection. 254nm radiation destroys microorganisms by changing their genetic information or DNA.
 |
![]() ┿Ozone Action
The deep UV radiation at 185nm wavelength produces abundant amounts of ozone in air. Ozone is an extremely active oxidizer and destroys microorganisms on contact. Ozone also acts as a deodorizer. One of ozone's advantages is that it can be carried by air into places that the UV radiation cannot reach directly. Ozone in conjunction with hydrogen peroxide (H2O2) produces highly energetic particles called hydroxyl radical (OH). The radical reacts with and oxidizes most
organic contaminants. Hydroxyl radical oxidation is much more effective than direct oxidation with ozone. This radical oxidation technology is called Advanced Oxidation Process (AOP) or Advanced Oxidation Treatment (AOT).
┿strong> Type & Specification
┿strong>Ozone Free UV Germicidal Lamps
L (low) germicidal lamps use ozone free fused quartz which cuts off 185nm ozone-producing line and emits 254nm line only. L type germicidal lamp is used to disinfect air, water and surface where ozone production is not desired, such as UV water purifier used at home Please see below graph I for the spectral energy distribution of ozone free UV lamps.
Graph 1 Spectral Energy Distribution of Ozone Free UV Germicidal Lamps
┿strong>Ozone Producing UV Germicidal Lamps
VH (very high) germicidal lamps use high purity fused quartz which emit both 185nm ozone-producing line and 254nm germicidal line. VH lamps produce ozone to oxidize hydrocarbons to get TOC (total organic carbon) reduction water used by industries such as semiconductor industry, where super-purified water is necessary. VH lamps are also used to treat soil and groundwater contaminated with petroleum hydrocarbons, metals, VOCS, TNT in Advanced Oxidation Process (AOP) and Advanced Oxidation Treatment (AOT). Please see below graph 2 for the spectral energy distribution of ozone producing UV lamps.
Graph 2 Spectral Energy Distribution of Ozone Producing UV Germicidal Lamps
┿strong>Low Pressure Amalgam (HO) UV Germicidal Lamps
High Output (HO) Germicidal Lamps emit 40%-60% more UV output than normal lamps of the same length. It is well known that above a certain mercury vapor pressure, the UV output decreases; due to the increase of the self-absorption of res0naneo line in the sealed glass tube: The mercury pressure is decided by the temperature inside the sealed glass tube,
As a result, excessive current input to the lamps tube decreases the UV output intensity. By using the amalgam this problem can be solved. The physically identical amalgam lamp omits 55% more UV when the input current is increased from 425mA to 900mA, while the UV output of the normal germicidal lamp is decreased. See below graph 3.
For the available specification of HO lamps, please see table l, table 2, table3, table 4.
Graph 3 UV Output vs. Lamps Temperature
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┿strong>Low Pressure Indium Amalgam (VHO) UV Germicidal Lamps
Very high output (VHO) germicidal lamps emit 3 times the UV output of normal germicidal lamps. It is indium doped amalgam lamps that are made for the optimum operating temperature of 100-120 ℃ so that it can be made into high watts lamps The lamps are designed primarily for use in wastewater and municipal drinking water treatment. The lamps provide the equipment manufacturers the benefit of designing equipments to achieve the required disinfection rates by using fewer lamps and fewer Supporting components, The VHO lamps are less sensitive to the varying water temperature which allows lamp effectiveness to be maintained.
For the available specification, please see table l, table 2, table 3.
┿strong>Low Pressure Slim-line Double Ended Germicidal Lamps
Slim-line germicidal lamps are instant start, hot cathode utilizing a coil filament on each end which operates hot. Lamp life is governed by tile life of the electrodes and is affected by tile frequency of starting.
Table I Slim-line Double Ended 2 Pin Germicidal Lamps
Double Ended 2 Pin
Lamp Models |
Lamp Watts |
Dimension (mm) |
Cap |
Lamp Voltage |
Lamp Current |
UV Output |
Useful Life |
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Table 2 Silim-line Double Ended Single Pin Germicidal Lamps
 |
|
|
Lamp
Watts |
Dimension
(mm) |
Cap |
Lamp
Voltage |
Lamp
Current |
Lamp Output |
Useful
Life |
|
|
|
W |
Length
(L) |
Diameter
(D) |
(B) |
V@50Hz |
mA |
Watts
W |
@1m
mw/cm3 |
Hour |
|
|
|
14 |
287 |
15 |
Single
Pin |
40 |
400 |
4.0 |
35 |
8000 |
|
|
|
25 |
436 |
15 |
Single
Pin |
62 |
400 |
6.0 |
69 |
8000 |
|
|
|
39 |
842.4 |
15 |
Single
Pin |
115 |
425 |
12.0 |
120 |
8000 |
|
|
|
65 |
1553.6 |
15 |
Single
Pin |
250 |
425 |
22.0 |
200 |
8000 |
|
|
|
80 |
842.4 |
15 |
Single
Pin |
120 |
900 |
30 |
260 |
8000 |
|
|
|
150 |
1553.6 |
15 |
Single
Pin |
220 |
900 |
49 |
450 |
8000 |
|
■strong> Low Pressure Preheat UV Germicidal Lamps (GPH)
Preheal germicidal lamps are operated by a preheat-start circuit that employs a relatively compact and economical ballast. The preheat circuit requires four electrical connections per lamp and a slight to moderate delay is needed to start the lamp Due to increased circuit complexity, reliability is regarded as slightly less than slim-line or cold-cathode instant-start circuits.
Table 3 Singled Ended 4 Pin Preheat Start Germicidal Lamps (GPH)
|
|
Lamp Models |
Lamp
Watts |
Dimension
(mm) |
Cap |
Lamp
Voltage |
Lamp
Current |
UV Output |
Useful
Life |
|
Ozone Free |
Ozone Producing |
W |
Length
(L) |
Diameter
(D) |
(B) |
V@50Hz |
mA |
Watts
W |
@1m
mw/cm3 |
Hour |
|
G10T5L/SE4P |
G10T5VH/SE4P |
10 |
212 |
15 |
4Pin |
39 |
420 |
2.9 |
23 |
6000 |
|
G14T5L/ SE4P |
G14T5 VH / SE4P |
14 |
287 |
15 |
4Pin |
39 |
420 |
3.8 |
36 |
8000 |
|
G15T5L/ SE4P |
G15T5 VH / SE4P |
15 |
303 |
15 |
4Pin |
40 |
420 |
4.0 |
37 |
8000 |
|
G18T5L/ SE4P |
G18T5 VH / SE4P |
18 |
356 |
15 |
4Pin |
51 |
420 |
5.5 |
53 |
8000 |
|
G23T5L/ SE4P |
G23T5 VH / SE4P |
23 |
436 |
15 |
4Pin |
65 |
420 |
6.9 |
68 |
8000 |
|
G37T5L/ SE4P |
G37T5 VH / SE4P |
37 |
793 |
15 |
4Pin |
105 |
420 |
12.9 |
130 |
8000 |
|
G36T5L/ SE4P |
G36T5 VH / SE4P |
39 |
846 |
15 |
4Pin |
110 |
420 |
13.0 |
132 |
8000 |
|
G40T5L/ SE4P |
G40T5 VH / SE4P |
40 |
851 |
15 |
4Pin |
110 |
420 |
14.0 |
140 |
8000 |
|
G23T5L/ HO/SE4P |
G23T5 VH / HO/SE4P |
40 |
436 |
15 |
4Pin |
86 |
610 |
14.0 |
140 |
8000 |
|
G55T5L/ SE4P |
G55T5 VH / SE4P |
55 |
1149 |
15 |
4Pin |
150 |
420 |
16.0 |
150 |
8000 |
|
G36T5L/ SE4P |
G36T5 VH / SE4P |
65 |
846 |
15 |
4Pin |
110 |
775 |
19.0 |
165 |
8000 |
|
G64T5L/ SE4P |
G64T5 VH / SE4P |
65 |
1553.6 |
15 |
4Pin |
220 |
425 |
19.0 |
165 |
8000 |
|
G75T5L/ SE4P |
G75T5 VH / SE4P |
75 |
1550 |
15 |
4Pin |
210 |
420 |
21.0 |
180 |
8000 |
|
G36T6L/ VHO/SE4P |
G36T6 VH / VHO/SE4P |
80 |
846 |
19 |
4Pin |
120 |
1200 |
28.0 |
240 |
8000 |
|
G120T6L/ VHO/SE4P |
G120T6 VH / VHO/SE4P |
120 |
1149 |
19 |
4Pin |
170 |
1200 |
39.0 |
330 |
8000 |
|
G64T6L/ VHO/SE4P |
G64T6 VH / VHO/SE4P |
150 |
1553.6 |
19 |
4Pin |
220 |
1200 |
45.0 |
400 |
8000 |
|
G64T5L/ VHO/SE4P |
G64T5 VH / VHO/SE4P |
155-195 |
1553.6 |
19 |
4Pin |
220 |
800-1000 |
45-58 |
380-485 |
8000 |
|
┿strong>Low Pressure Compact Germicidal Lamps
Thc design of "H" shaped and "U" shaped germicidal lamps is primarily employed in application where more intense UV radiation is needed in a limited space. So it is compact. H-shape and U- shape are also instant start lamps.
Table 4 H Shape Compact Germicidal Lamps |
|
Lamp Models |
Lamp
Watts |
Dimension
(mm) |
Cap |
Lamp
Voltage |
Lamp
Current |
UV Output |
Useful
Life |
|
Ozone Free |
Ozone Producing |
W |
Length
(L1) |
Diameter
(L2) |
(B) |
V@50Hz |
mA |
Watts
W |
@1m
mw/cm3 |
Hour |
|
G5L/H/G23 |
G5VH/H/G23 |
5 |
85 |
105 |
G23 |
35 |
180 |
1.2 |
12 |
6000 |
|
G7L/H/G23 |
G7 VH /H/G23 |
7 |
115 |
135 |
G23 |
45 |
180 |
1.9 |
20 |
8000 |
|
G9L/H/G23 |
G9 VH /H/G23 |
9 |
145 |
165 |
G23 |
60 |
180 |
2.4 |
23 |
8000 |
|
G11L/H/G23 |
G11 VH /H/G23 |
11 |
215 |
235 |
G23 |
90 |
155 |
3.0 |
30 |
8000 |
|
G13L/H/GX23 |
G13 VH /H/GX23 |
13 |
170 |
190 |
GX23 |
60 |
285 |
3.6 |
35 |
8000 |
|
G5L/H/2G7 |
G5 VH /H/2G7 |
5 |
85 |
105 |
2G7 |
35 |
180 |
1.2 |
12 |
8000 |
|
G7L/H/2G7 |
G7 VH /H/2G7 |
7 |
115 |
135 |
2G7 |
47 |
175 |
1.9 |
20 |
8000 |
|
G9L/H/2G7 |
G9 VH /H/2G7 |
9 |
145 |
165 |
2G7 |
60 |
170 |
2.4 |
23 |
8000 |
|
G11L/H/2G7 |
G11 VH /H/2G7 |
11 |
215 |
235 |
2G7 |
91 |
155 |
3.0 |
30 |
8000 |
|
G18L/H/2G11 |
G18 VH /H/2G11 |
18 |
195 |
225 |
2G11 |
58 |
375 |
5.5 |
60 |
8000 |
|
G24L/H/2G11 |
G24 VH /H/2G11 |
24 |
290 |
320 |
2G11 |
87 |
345 |
8.5 |
90 |
8000 |
|
G36L/H/2G11 |
G36 VH /H/2G11 |
36 |
385 |
415 |
2G11 |
87 |
435 |
12.0 |
120 |
8000 |
|
G40L/H/2G11 |
G40 VH /H/2G11 |
40 |
503 |
533 |
2G11 |
120 |
385 |
15 |
135 |
8000 |
|
G55L/H/2G11 |
G55 VH /H/2G11 |
55 |
503 |
533 |
2G11 |
105 |
540 |
17 |
170 |
8000 |
|
G35L/HO/H/2G11 |
G35 VH /HO/H/2G11 |
35 |
195 |
225 |
2G11 |
87 |
435 |
12 |
120 |
8000 |
|
G60L/HO/H/2G11 |
G60 VH /HO/H/2G11 |
60 |
385 |
415 |
2G11 |
105 |
600 |
20 |
200 |
8000 |
|
Remarks: Custom designed U shape germicidal lamps are available.
 |
┿strong>Low Pressure Cold Cathode UV Germicidal Lamps
Cold cathode germicidal lamps are instant utilizing a large cylindrical cathode instead of a coil filament.Due to this construction, the lamps are not adversely affected by frequent start and the life is considerably in excess of other lamp types. Cold cathode germicidal lamps have favorable operating characteristics and maintain a high ultraviolet transmission throughout life even at reduced temperature. They are, therefore, widely used in walk-in refrigerators and holding rooms. Cold cathode UV lamps are well suited to disinfection of air and surface of unoccupied areas due to their long life and low depreciation. Cold cathode germicidal lamps are also employed in application where frequent start is a requirement.
Table 5 Cold Cathode Germicidal Lamps
|
|
Lamp Models |
Lamp
Watts |
Dimension
(mm) |
Cap |
Lamp
Voltage |
Lamp
Current |
Lamp Output |
Useful
Life |
|
Ozone Free |
Ozone Producing |
W |
Length
(L) |
Diameter
(D) |
(B) |
V@50Hz |
mA |
Watts
W |
@1m
mw/cm2 |
Hour |
|
G15CCL |
G15CCVH |
15 |
357 |
15 |
Single Pin |
180 |
90 |
2.8 |
22 |
20,000 |
|
G22CCL |
G22CCVH |
22 |
611 |
15 |
Single Pin |
270 |
90 |
5.5 |
45 |
20,000 |
|
G28CCL |
G28CCVH |
28 |
865 |
15 |
Single Pin |
350 |
90 |
8.5 |
63 |
20,000 |
|
| U shape circular shape cold cathode UV germicidal lamps are available. Custom designed cold cathode UV germicidal lamps are available. |
| Table 6 Mini-Bowl-Shape Self-Ballast UV Germicidal Lamps
This item is mainly employed in enclosed compact area, such as sterilization cabinet, microwave oven, refrigerator and other home appliances.
|
|
Lamp Models |
Lamp
Watts |
Dimension
(mm) |
Cap |
Lamp
Voltage |
Lamp
Current |
Lamp Output |
Useful
Life |
|
Ozone Free |
Ozone Producing |
W |
Length
(L) |
Diameter
(D) |
(B) |
V@50Hz |
mA |
Watts
W |
@1m
mw/cm2 |
Hour |
|
G2LE17 |
G2VHE17 |
2 |
55 |
20 |
Mini-bowl |
E17 |
10 |
0.13 |
28 |
2000 |
|
G3LE17 |
G3VHE17 |
3 |
63 |
20 |
Mini-bowl |
E17 |
10 |
0.17 |
30 |
2000 |
|
G4LE17 |
G4VHE17 |
3.5 |
57 |
35 |
Mini-bowl |
E17 |
10 |
0.19 |
35 |
2000 |
|
| Standard ballasts are available. Custom designed ballasts are available. UL, CSA, CE approved ballasts are available. |
|
B. Quartz Sleeve of UVC Disinfection and Ozone Producing
l. Quartz Sleeve of Low Pressure Ozone Free UVC lamps EN09
■Description & Application
ENO0 is mechanically drawn electrically fused clear quartz glass tube. It uses natural quartz as raw material with averaged SiO2 99.95%. Due to its slightly lower purity than that of ENO8, EN09 has lower transmission in deep UV range such as ozone forming line 185nm, so EN09 can not be used as ozone producing application. But ENO9 still has a good transmission in UVC range of 200-280nm wavelength such as at UV disinfection line 254nm. So this item is a good material in UVC disinfection application such as employed as sleeve of low pressure ozone free UVC lamps.
ENO9 UB with OH<150ppm can be used as sleeve of low pressure ozone free UVC lamps. |
|
Chemical Composition and Hydroxyl (OH) unit: ppm
|
|
Al |
Li |
K |
Na |
Ca |
Fe |
Ti |
Mg |
Cu |
B |
OH |
SiO2 |
|
EN08UB |
18 |
0.6 |
2.0 |
2.3 |
1.8 |
1.8 |
4.6 |
0.4 |
0.3 |
0.5 |
ⅿ0 |
99.95% |
Transmission (tube wall 1.5mm)
|
nm |
185 |
200 |
220 |
245 |
254 |
320 |
340 |
500 |
800 |
|
% |
43.5 |
45.0 |
74.3 |
89.0 |
89.7 |
92.3 |
92.4 |
92.4 |
92.4 |
■Standard Specification:
Please see table 7 for our standard specification of quartz sleeve.
2. Quartz Sleeve of Both Ozone Free UVC Lamps and Ozone
■Producing UV Lamps EN08
┿strong>Description
EN08 is mechanically drawn electrically fused clear quartz glass tube. It uses natural crystal quality quartz as raw material with averaged SiO2 >99.98%. Due to its high purity, EN08 has an excellent transmission in both deep UV range of 100-200nm wavelength and UVC range of 200-280un wavelength. By vacuum annealing, the OH of EN08 can be lowered below lppm. This item is a good material in ozone producing and UVC disinfection field.
┿strong>Application
|
Type |
OH |
Application |
|
EN08UB |
OH<150ppm |
sleeve of Iow pressure ozone free UVC lamps and Iow pressure ozone producing UV lamps.
|
|
EN08SB |
OH<ppm |
sleeve of medium pressure ozone free UVC lamps and medium pressure ozone producing UV lamps. |
Chemical Composition unit: ppm
|
|
Al |
Li |
K |
Na |
Ca |
Fe |
Ti |
Mg |
Cu |
B |
SiO2 |
|
EN08 |
18 |
0.6 |
0.6 |
0.8 |
0.5 |
0.3 |
0.1 |
0.5 |
0.1 |
0.5 |
99.98% |
Transmission
|
nm |
185 |
200 |
220 |
245 |
254 |
320 |
340 |
500 |
800 |
|
% |
64.8 |
67.5 |
84.3 |
89.8 |
90.4 |
92.3 |
92.4 |
92.5 |
92.5 |
┿strong>Standard Specification:
Please see table 7 for our standard specification of quartz sleeve.
Graph 4 Transmission Chart (tube wall 1.5mm)
Table 7 Standard Size of Quartz Sleeve
One End Closed, One End Open
|
Outer Diameter
(mm) |
Wall Thickness
(mm) |
Length
(mm) |
|
20.5±0.3 |
1.25±0.13 |
151±1 |
|
210±1 |
|
310±1 |
|
835±1 |
|
20.7±0.3 |
1.00±0.10 |
310±1 |
|
22.0±0.3 |
1.00±0.10 |
540±1 |
|
920±1 |
|
1251±1 |
|
22.5±0.3 |
1.25±0.13 |
502±1 |
|
845±1 |
|
889±1 |
|
23.0±0.3 |
1.50±0.15 |
265±1 |
|
485±1 |
|
845±1 |
|
920±1 |
|
1610±2 |
|
24.5±0.3 |
1.25±0.13 |
450±1 |
|
900±1 |
|
1700±2 |
|
1985±2 |
|
Ἷ.5±0.3 |
1.25±0.13 |
245±1 |
|
25.0±0.3 |
1.30±0.13 |
360±1 |
|
560±1 |
|
910±1 |
|
|
Outer Diameter
(mm) |
Wall Thickness
(mm) |
Length
(mm) |
|
25.0±0.3 |
1.50±0.15 |
320±1 |
|
438±1 |
|
972±1 |
|
1073±1 |
|
1700±2 |
|
26.0±0.3 |
1.50±0.15 |
1250±1 |
|
1700±2 |
|
28.0±0.4 |
1.50±0.15 |
920±1 |
|
1727±2 |
|
30.0±0.5 |
1.50±0.15 |
455±1 |
|
1600±2 |
|
32.0±0.5 |
1.50±0.15 |
91±1 |
|
153±1 |
|
209±1 |
|
33.0±0.5 |
1.50±0.15 |
920±1 |
|
Ἷ.0±0.5 |
1.50±0.15 |
200±1 |
|
35.0±0.6 |
1.50±0.15 |
900±1 |
|
36.0±0.6 |
2.00±0.2 |
494±1 |
|
38.0±0.6 |
1.50±0.15 |
1700±1 |
|
40.0±0.6 |
1.50±0.15 |
1700±1 |
|
44.0±0.6 |
1.50±0.15 |
1700±1 |
|
44.0±0.6 |
2.00±0.2 |
1700±2 |
|
45.0±0.7 |
1.50±0.15 |
1600±2 |
|
48.0±0.7 |
1.50±0.15 |
1250±1 |
|
Ἷ.0±0.7 |
2.00±0.2 |
1537±2 |
|
2030±2 |
|
50.0±1.0 |
2.00±0.2 |
1100±2 |
|
55.0±1.0 |
2.25±0.25 |
1200±2 |
|
65.0±1.2 |
2.50±0.25 |
560.5±1 |
|
70.0±1.5 |
2.75±0.3 |
563±1 |
|
Both Ends Open
|
Outer Diameter
(mm) |
Wall Thickness
(mm) |
Length
(mm) |
|
20.0±0.3 |
1.50±0.15 |
194±1 |
|
270±1 |
|
20.0±0.3 |
1.00±0.1 |
261±1 |
|
20.5±0.3 |
1.25±0.12 |
1150±1 |
|
20.5±0.3 |
1.50±0.15 |
359±1 |
|
20.7±0.3 |
1.00±0.1 |
1150±1 |
|
21.0±0.3 |
1.25±0.12 |
920±1 |
|
22.0±0.3 |
1.00±0.1 |
540±1 |
|
895±1 |
|
921±1 |
|
22.0±0.3 |
1.40±0.15 |
270±1 |
|
22.5±0.3 |
1.25±0.12 |
502±1 |
|
845±1 |
|
1050±1 |
|
1700±2 |
|
23.0±0.3 |
1.50±0.15 |
470±1 |
|
1700±2 |
|
24.5±0.3 |
1.25±0.12 |
832±1 |
|
1750±1 |
|
25.0±0.3 |
1.25±0.12 |
502±1 |
|
25.0±0.3 |
1.50±0.15 |
832±1 |
|
1540±2 |
|
1552±2 |
|
26.0±0.3 |
1.50±0.15 |
1250±1 |
|
28.0±0.4 |
1.50±0.15 |
920±1 |
|
30.0±0.5 |
1.50±0.15 |
870.5±1 |
|
887±1 |
|
31.0±0.5 |
1.50±0.15 |
920±1 |
|
32.0±0.5 |
1.50±0.15 |
920±1 |
|
32.0±0.5 |
2.00±0.15 |
920±1 |
Remarks:
1. Sleeve can be one end closed (domed or flat closed),
the other end open; or both ends open. The open end
is usually flame glazed.
2. items marked "᾿quot; are one end expanded.
3. items marked "┿quot; are ends not fire-glazed
|
|
Outer Diameter
(mm) |
Wall Thickness
(mm) |
Length
(mm) |
|
33.0±0.5 |
1.50±0.15 |
426±1 |
|
900±1 |
|
35.0±0.5 |
1.50±0.15 |
1410±2 |
|
1600±2 |
|
35.0±0.5 |
2.00±0.2 |
1410±2 |
|
36.0±0.5 |
2.00±0.2 |
937±1 |
|
38.0±0.6 |
1.50±0.15 |
1016±1 |
|
1400±2 |
|
40.0±0.6 |
1.50±0.15 |
1150±1 |
|
40.0±0.6 |
2.00±0.15 |
1150±1 |
|
44.0±0.6 |
1.50±0.15 |
406.5±1 |
|
1700±2 |
|
44.0±0.6 |
2.00±0.2 |
1700±2 |
|
48.0±0.7 |
1.50±0.15 |
1244±1 |
|
48.0±0.7 |
2.00±0.2 |
1512±2 |
|
50.0±1.0 |
2.00±0.2 |
1219±1 |
|
52.0±1.0 |
1.50±0.15 |
207±1 |
|
52.0±1.0 |
2.00±0.2 |
1150±1 |
|
55.0±1.0 |
2.00±0.2 |
1150±1 |
|
55.0±1.0 |
2.50±0.25 |
595±1 |
|
60.0±1.2 |
2.00±0.2 |
1050±1 |
|
60.0±1.2 |
2.50±0.25 |
1050±1 |
|
65.0±1.3 |
2.00±0.2 |
1100±1 |
|
65.0±1.3 |
2.50±0.25 |
1100±1 |
|
67.0±1.3 |
3.00±0.3 |
700±1 |
|
70.0±1.4 |
2.50±0.25 |
1000±1 |
|
70.0±1.4 |
3.00±0.3 |
1050±1 |
|
75.0±1.5 |
2.50±0.25 |
900±1 |
|
75.0±1.5 |
3.00±0.25 |
900±1 |
|
80.0±1.5 |
2.25±0.3 |
1000±1 |
|
80.0±1.5 |
3.00±0.3 |
1000±1 |
|
80.0±1.5 |
4.00±0.4 |
580±1 |
|
1200±1 |
|
82.0±1.5 |
3.00±0.3 |
1219±1 |
|
85.0±1.5 |
3.00±0.3 |
900±1 |
|
90.0±1.8 |
2.50±0.25 |
1050±1 |
|
90.0±1.8 |
3.00±0.3 |
1050±1 |
|
95.0±1.8 |
3.00±0.3 |
1000±1 |
|
100.0±2.0 |
2.50±0.25 |
1000±1 |
|
100.0±2.0 |
3.00±0.3 |
1000±1 |
|
105.0±2.0 |
2.50±0.25 |
1219±1 |
|
106.0±2.0 |
2.50±0.25 |
1053±1 |
|
|
