Product Details:
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Product Name: | 2ml-50ml Borosilicate Medicinal Neutral Glass Tube For Ampoules | Material: | Borosilicate Glass |
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Volume: | 2ml-50ml | Usage: | Liquid Or Power |
Sealing: | Rubber Stopper | Sample: | Free |
High Light: | 2ml glass tube vial,ampoules glass tube vial,50ml borosilicate glass vial |
2ml-50ml Borosilicate Medicinal Neutral Glass Tube For Ampoules
Glass is an ideal material for pharmaceutical applications. Glass is particularly suited to provide high quality pharmaceutical glass tubes to meet the stringent demands of the pharmaceutical packaging industry. A wide range of clear and amber borosilicate glass tubes that our global customers convert into glass vials, cartridges, ampoules and syringes for drug storage and delivery
Physic properties
Coefficient of mean linear thermal expansion
α (20℃; 300℃) acc. to ISO 7991
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4.9×10-6K-1Trans
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Transformation temperature Tg
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515 ℃
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Glass temperature at annealing point logη=13
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535 ℃
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Glass temperature at soft point logη=7.6
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783 ℃
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Glass temperature at working point logη=4
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1020 ℃
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Density ρ at 25℃
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2.32 g/cm3
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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.
Excellent chemical durability for use in pharmaceutical containers such as ampoules, vials, drug prefilled syringes, and chemical labware such as test tubes.
BS-A is designed to protect sensitive pharmaceutical preparations such as vitamins from the blue light and UV range. It complies with the Japanese Pharmacopoeia, which specifies visibility not only in the blue and ultraviolet light range, but also in the visible light range.
principle
The purpose is to eliminate permanent stress and structural imbalance in glass products. Glass is a poor heat conductor. After the product is formed, a temperature difference occurs between the surface layer and the inner layer 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 is when the surface layer is cooled to room temperature. , the inner layer continues to cool down and shrink, and is hindered by the surface layer to generate tensile stress, and at the same time, the surface layer generates compressive stress, which exists permanently
Contact Person: Vicky Song
Tel: 86-15832766956