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Product Details:
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Product Name: | Packing Tube Glass Tube Vials 2ml-50ml Liquid Or Power | Material: | Borosilicate Glass |
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Volume: | 2ml-50ml | Usage: | Liquid Or Power |
Sealing: | Rubber Stopper | Sample: | Free |
High Light: | 2ml glass test tube,power packing glass test tube,2 ml glass tube vials |
Packing Tube Glass Tube Vials 2ml-50ml Liquid Or Power
Production method of glass vials
【Technical field】
The present invention relates to a method for producing glass vials, in particular pharmaceutical vials or ampoules, and glass vials produced therefrom.
【Background technique】
Glass bottles used for medicinal purposes (also called so-called "vials") consist of neutral glass, i.e. glass that can be classified as hydrolysis class 1, for which the standardized test ISO 719 (DIN 12111) is also used. grass. Especially borosilicate glasses, such as DURAN® or Fiohx® (both are registered trademarks of SCHOTT AG, Mainz) are neutral glasses.
[0003] The vials or ampoules must additionally have as low an alkali metal emission as possible, which is measured according to the standardized test ISO 4802. Glass surfaces caused by evaporation and deposition of glass components on the glass surface must be avoided, especially during thermoforming. That said, in the worst cases, this delamination can get into the contents of the vial, destroying the contents.
1. In terms of manufacturing process, medicinal glass bottles are generally divided into two categories: molded bottles and tube bottles. Molded bottles are divided into large-mouth bottles (bottle diameter above 30MM) and small-mouth bottles. The former is used to hold powder, block and paste items, and the latter is used to hold liquid.
2. According to the form of the bottle mouth, it is divided into cork bottle mouth, screw bottle mouth, crown cap bottle mouth, rolling bottle mouth and frosted bottle mouth, etc. According to the usage, it is divided into "single-use bottles" which are discarded after one use and "recycling bottles" which are used for multiple turnovers.
3. According to the contents, it can be divided into acid bottles, medicine bottles, reagent bottles, infusion bottles, preparation bottles, etc.
Medicinal glass bottle display
Medicinal glass bottle display (13 photos)
4. Medicinal glass bottles can be roughly divided into the following categories according to the different uses of medicines: packaging of infusion solutions, packaging of oral liquids, packaging of tablets and capsules, and packaging of powder injections. Infusion solution packaging: domestic large infusion packaging is mainly glass infusion bottles
Features
◆ GMP production environment
◆ Online statistical control
◆ meet ISO size and appearance AQL level
◆ detecting camera parameters and critical size defects in appearance key 77
◆ Each product can be traced to the time of delivery (DD-MM-YY), shift, machine and operator.
1. Rotating speed: during the expansion of centrifugal pipe, the rotating speed and diameter determine the centrifugal force. When the diameter is constant, the higher the speed is, the greater the centrifugal force is. Under the action of centrifugal force, the larger the diameter is, the slower the speed is. Therefore, during pipe expansion, the expansion rate shall be used as the basis of glass pipe diameter
2. Determine the wall thickness and the corresponding temperature. Heating and softening pressure in the process of pipeline expansion, the sizing device to control the diameter mainly depends on a set of synchronously rotating glass tube, which needs a wider speed range.
principle
The purpose is to eliminate permanent stress and structural imbalance in glass products. Glass is a poor thermal conductor. After the product is formed, the surface layer and the inner layer will have a temperature difference during the cooling process. When the surface layer is solidified and the inner layer is viscous, the temperature difference exists but the stress relaxation does not exist. This temperature difference occurs when the surface layer is cooled to room temperature. , The inner layer continues to cool down and shrinks, which is hindered by the surface layer to produce tensile stress, and at the same time, the surface layer produces compressive stress, which is permanent. The size and distribution of the permanent stress caused by the thermal process in each part of the product will not be uniform, therefore, it will affect the strength of the glass product, and even break by itself due to stress concentration. Annealing can eliminate harmful tension inside the glass and prevent new stress from being generated.
Contact Person: Vicky Song
Tel: 86-15832766956