10ml Clear Glass Ampoule
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Price:
Negotiable
- minimum:
- Total supply:
-
Delivery term:
The date of payment from buyers deliver within days
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seat:
Henan
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Validity to:
Long-term effective
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Last update:
2021-07-22 07:39
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Browse the number:
407
Company Profile
Zhengzhou Frontier Pharmaceutical Co., LtdBy certification [File Integrity]
Contact:fengan(Mr.)
Email:
Telephone:
Phone:
Area:Henan
Address:Henan
Website:http://www.fapharmaceutical.com/ http://fengan.ahedong.com/
Product Details
Series Of Ampoule Bottle
The biggest advantage of ampoule bottle is string anti-interference,and the druge is only in contact with glass.
According to the ISO (TypeB, TypeC, TypeD) and YBB specification, or custom to design.
Form:1~40ml
Color: Clear amber
Break System: Point nick broken(OPC)
Easy To fold the ring broken(CBR)
Heavy metal - free color ring printing
Key |
Key |
Key |
1 constriction |
1 funnel |
1 dome |
2 sealing point |
/ | / |
3 stem |
/ | / |
4 bulb |
/ | / |
5 shoulder |
/ | / |
6 base or bottom |
/ | / |
Note
For dimensions of parameters, see Table 1.
Figure 1 - Form B | Stem, cut ampoule with constriction |
Figure 2 - Form C | Stem, open-funnel ampoule with constriction |
Figure 3 -Form D | Stem, sealed ampoule with constriction |
Table 1 — Dimensions Of Ampoules
Dimensions In Millimetres
Dimension |
Nominal volume ml |
|||||||||
1 |
2 |
3 |
5 |
10 |
20 | 25 | 30 | |||
External diameter |
Body a d1 |
/ | 10,75 |
10,75 |
12,75 |
14,75 |
17,75 |
22,5 |
22,5 |
22,5 |
tol. |
±0,15 |
±0,15 |
±0,15 |
±0,15 |
±0,20 |
±0,25 |
±0,25 | ±0,25 | ||
Constriction b d2 |
/ |
6,5 |
6,5 |
6,5 |
7 |
7,5 |
8,5 |
8,5 |
8,5 | |
tol. |
±0,5 |
±0,5 |
±0,5 |
±0,5 |
±0,5 |
±0,5 |
±0,5 | ±0,5 | ||
Bulb d3 |
/ |
8,5 |
8,5 |
8,5 |
9 |
9,5 |
12 |
12 |
12 | |
tol. |
±0,5 |
±0,5 |
±0,5 |
±0,5 |
±0,5 |
±1 |
±1 | ±1 | ||
Stem d4 |
/ |
6 |
6 |
6 |
7 |
7,1 |
7,8 |
7,8 |
7,8 | |
tol. |
±0,35 |
±0,35 |
±0,35 |
±0,35 |
±0,35 |
±0,5 |
±0,5 | ±0,5 | ||
Funnel c d5 |
/ |
9 |
9 |
10,7 |
12,2 |
13 |
14 |
14 |
14 | |
tol. |
±0,8 |
±0,8 |
±0,8 |
±1 |
±1 |
±1 |
±1 | ±1 | ||
Dome c d6 |
/ |
10 |
10 |
10,5 |
12 |
13,5 |
13,5 |
13,5 |
13,5 | |
tol. |
±1 |
±1 |
±1 |
±1 |
±1 |
±1 |
±1 | ±1 | ||
Flared end d7 |
/ |
8 |
8 |
8 |
9 |
9,5 |
11 |
11 |
11 | |
tol. |
±1 |
±1 |
±1 |
±1 |
±1 |
±1 |
±1 | ±1 | ||
Overall height |
Form B h1 |
/ | 60 |
72 |
75 |
83 |
102 |
113 |
128 |
143 |
tol. |
±1 |
±1 |
±1 |
±1 |
±1 |
±1 |
±1 | ±1 | ||
Form C h2 |
/ |
67 |
79 |
82 |
90 |
109 |
120 |
135 |
150 | |
tol. |
±1 |
±1 |
±1 |
±1 |
±1 |
±1,5 |
±1,5 | ±1,5 | ||
Form D h3 |
/ |
70 |
83 |
89 |
95 |
112 |
126 |
141 |
156 | |
tol. |
±1 |
±1 |
±1 |
±1 |
±1 |
±1 |
±1 | ±1 | ||
Height |
Height to constriction h4 |
/ | 25,5 |
37,5 |
39,5 |
46,5 |
62 |
76 |
91 |
106 |
tol. |
±0,5 |
±0,5 |
±0,5 |
±0,5 |
±1 |
±1,3 |
±1,3 | ±1,3 | ||
Height to gauging point h5 |
/ |
47 |
57 |
62 |
68 |
87 |
100 |
115 |
130 | |
tol. |
±2 |
±2 |
±2 |
±2 |
±2 |
±2 |
±2 | ±2 | ||
Body height h6 |
min. |
21 |
33 |
35 |
41 |
55 |
65 |
80 | 95 | |
Height measured from centre of constriction to bulb h7 |
max. |
4,5 |
4,5 |
5 |
5,5 |
6 |
6,5 |
6,5 | 6,5 | |
Base |
Radius r |
/ | 1 |
1 |
1,5 |
1,5 |
1,5 |
2,0 |
2,0 |
2,0 |
tol. |
±0,5 |
±0,5 |
±0,5 |
±0,5 |
±0,5 |
±0,5 |
±0,5 | ±0,5 | ||
Depth of the base e |
/ |
1 |
1 |
1 |
1 |
1,25 |
1,5 |
1,5 |
1,5 | |
tol. |
±0,5 |
±0,5 |
±0,5 |
±0,5 |
±0,75 |
±1 |
±1 | ±1 |
Table 1 (Continued) Dimensions In Millimetres
Dimension |
Nominal volume ml |
|||||||||
1 |
2 |
3 |
5 |
10 |
20 | 25 | 30 | |||
Wall thickness |
Glass thickness of body w1 |
/ | 0,5 |
0,5 |
0,5 |
0,55 |
0,6 |
0,7 |
0,7 |
0,7 |
tol. |
±0,03 |
±0,03 |
±0,03 |
±0,03 |
±0,04 |
±0,04 |
±0,04 | ±0,04 | ||
Glass thickness of stem at gauging w2 |
/ |
0,37 |
0,37 |
0,37 |
0,40 |
0,47 |
0,50 |
0,50 |
0,50 | |
tol. |
±0,05 |
±0,05 |
±0,05 |
±0,05 |
±0,05 |
±0,05 |
±0,05 | ±0,05 | ||
Glass thickness at base w3 |
min. |
0,3 |
0,3 |
0,3 |
0,4 |
0,4 |
0,5 |
0,5 | 0,5 | |
Glass thickness at constriction w4 |
/ | 0,7 |
0,7 |
0,7 |
0,7 |
0,8 |
1 |
1 |
1 | |
tol. |
±0,1 |
±0,1 |
±0,1 |
±0,15 |
±0,15 |
±0,2 |
±0,2 | ±0,2 | ||
Glass thickness of dome w5 |
/ |
0,1 to 0,25 | 0,1 to 0,30 | |||||||
Circular run-out tolerance td |
/ |
0,6 |
0,6 |
0,8 |
1 |
1 |
1,2 |
1,2 | 1,2 | |
Volume to centre of constriction ml » V |
/ |
1,5 |
2,3 |
3,5 |
5,5 |
11,5 |
23,5 |
28,5 | 33,5 | |
a. The deviation from the perpendicularity between bottom and length axis at the body outside diameter shall not exceed an angle of 2°. b. If there is a need to reduce the constriction diameter, e.g. due to a reduction of particles, it shall be agreed between the manufacturer and purchaser. c. No point of the funnel and the dome shall be outside the body diameter. d. The run-out tolerance shall be measured at the sealing point (according to ISO 1101). |
Table 2 — Breaking Force
Nominal volume ml |
Length l (= l1 + l2) mm |
Breaking force |
|
Fmin. N |
Fmax. N |
||
1 |
36 (= 18 + 18) |
30 |
80 |
2 | |||
3 | |||
5 | |||
10 |
60 (= 22 + 38) |
90 | |
20 |
100 | ||
25 | |||
30 |
1. Test For Breaking Force
1.1 Principle
The test is suitable for determining the force required to separate the ampoule stem from the body and for assessing whether a clean break is obtained.
1.2 Tensile Testing Machine
The tensile testing machine shall be in accordance with ISO 7500-1 and have the following characteristics:
↓ A test speed, v, of 10 mm/min;
↓ A measuring range for force of 200 N.
Note
Other test procedures, e.g. with a power increase of 20 N/s, are admissible if equivalent results can be obtained.
An example of the test set-up is illustrated in Figure 4.
1.3 Sampling
1.3.1 Number Of Samples
Random sampling in accordance with ISO 2859-1 (inspection level S-4) is recommended.
1.3.2 Conditioning Of Samples
The temperature of the samples shall be 20 °C ± 5 °C.
1.4 Procedure
Set the distance between the metal bars, as shown in Figure 4 so that the force is imparted on the middle of the bars at an angle of 90° to the axis of the ampoule.
Apply the force using the tensile testing machine to rupture. Record the breaking force.
Dimensions In Millimetres
Key
1 metal bars
2 ampoule
3 punch of the tensile testing machine
Note
For dimensions of parameters, see Table 2.
Figure 4 — Example of test set-up for determining the force for breaking ampoules
1.5 Expression Of Results
In order for the ampoule to comply with this part of ISO 9187, all single test results shall comply with the relevant values specified in Table 2.
1.6 Test Report
The following information shall be specified in the test report:
a) A description of the test set-up, including the tensile testing machine;
b) A description of the sample;
c) The number of samples;
d) The test results, including the arithmetic mean, x , and the standard deviation, s, of the sample;
e) The place and date of the tests;
f) The name and signature of the person who carried out the tests.
2. Delivery
2.1 Ampoules shall be sorted according to their design and nominal volumes, and shall be delivered in packaging units (see Clause 8).
2.2 If desired, secondary sorting of ampoules according to stem diameter, d4, in the measuring axis shall be subject to agreement between the manufacturer and user.
3. Packaging
3.1 The packaging unit shall have the following dimensions:
↓ Length (internal): 384 mm;
↓ Width (internal): 143 mm;
↓ Height of the appropriate type of ampoule +2 mm.
Packaging units whose dimensions differ from those stated above are subject to agreement between the manufacturer and user.
3.2 As far as possible, all packaging immediately surrounding the ampoules shall be made from materials that do not shed particles.
4. Marking
The following information shall be marked on the packaging:
↓ The manufacturer's name and address;
↓ The designation in accordance with 3.2.
Further marking shall be subject to agreement between the manufacturer and the user.
http://www.fapharmaceutical.com/