Pyrex® Brand 7740 Glass
Borosilicate - Low Expansion - Type I Glass
Of the hundreds of commercial glasses produced, Code No. 7740 borosilicate
glass comes closest to being the ideal glass for most laboratory applications.
With proper care, it will withstand nearly all temperatures used in normal
laboratory use. It is highly resistant to chemical attack. Its low coefficient
of expansion allows it to be manufactured with heavy walls, giving it
mechanical strength, while retaining reasonable heat resistance. And, it is a
glass that can be fabricated more easily than most other glasses, thus making
it more economical.
Light Transmittance
The visible light transmittance (400-760NM) of Code No. 7740 glass is 92% at 2mm
thickness.
Standards
Type I, Class A Borosilicate conforming to federal specification DD-G-54 lb and
ASTM E-438. Also meets the U.S. Pharmacopoeia specs for Type I Borosilicate
Glass.
Chemical Composition
Composition
|
(percent
approx.)
|
| SiO2 |
80.6% |
| B2O3 |
13.0% |
| Na2O |
4.0% |
| A12O3 |
2.3% |
| Miscellaneous
Traces |
0.1% |
Physical Properties
| Coeff. of
Exp. |
32.5 x 10-7cm/cm/°C |
| Strain
Point |
510°C |
| Anneal
Point |
560°C |
| Soften
Point |
821°C |
| Density |
2.23 g/cm3 |
| Youngs
Mod. |
6.4 x 103
Kg/mm2 |
| Refract.
Index |
1.474 @
Sodium D Line |
| Temp.
Limits |
490°C
(Extreme Service) |
| 230°C
(Normal Service) |
| Max.
Thermal Shock |
160°C |
Applications
Designed for use in all products requiring very high resistance to strong
acids, alkalis and products intended for use in heat applications such as
autoclaves, hot plates and open flame.
Products
Beakers, burets, bottles, centrifuge tubes, condensers, cylinders, desiccators,
dishes, flasks, fritted ware, funnels, ground joints, jars, stopcocks, tubing
and other assorted products.
Warnings
1. Thick-walled ware, such as bottles, jars and desiccators, should not be
heated over a flame, a hot plate, or other comparable source of heat.
2. Do not use hydrofluoric or hot phosphoric acid in glass.
3. Do not use scratched or abraded glassware.
4. Hot alkalis will etch glass.
Pyrex® Brand Low Actinic Labware
Code No. 7740 Glass With a Red Ultraviolet Shielding Stain
Pyrex® Low Actinic Labware is made from Code No. 7740 glass with a red
stain fired into the exterior surface. The resulting product is as durable as
the base glass. Pyrex® Low Actinic Labware was originally developed for
work in the vitamin field, but it has found other uses in applications with
chemicals sensitive to light in the 3,000 to 5,000 Angstrom range.
Transmission/Wavelength For PYREX® Brand Low Actinic Labware -
Approximately 2.80mm Thick
Wave
Length A
|
%Transmittance
|
| 3,000 |
0 |
| 4,000 |
0-1 |
| 5,000 |
2-4 |
For comparison, the visible light transmittance (400-760NM) of Code No. 7740
glass is 92% at 2mm thickness.
PyrexPlus® Brand Labware
Code No. 7740 Glass With a Vinyl Coating
PyrexPlus® brand labware is Code No. 7740 Pyrex® brand borosilicate
glass labware with a tough transparent vinyl coating. It is designed to resist
exterior surface abrasion. It also helps minimize loss of contents if the glass
vessel is accidentally broken.
The coating of PyrexPlus® brand labware is designed to resist leakage
resulting from a brief chemical exposure that might occur if the vessel is
broken. Prolonged and/or repeated chemical exposure of the coating to
aldehydes, ketones, chlorinated solvents and concentrated acids should be
avoided.
Transmission/Wavelength For PYREXPLUS® Brand Low
Actinic Labware - Approximately 3.15mm Thick
Vycor® Brand 7913 Glass
High Temperature Glass - High Silica Glass
This glassware has several exceptional properties. Since it is 96% silica,
it is similar to fused quartz in its thermal properties. It may be used at much
higher temperatures than Code No. 7740 borosilicate glass and will withstand
considerably more thermal shock. Vycor products can be used continuously at
900°C, and intermittently to 1200°C. Being of a very simple composition, only
five elements, it is used for very precise analytical work.
Transmission/Wavelength for Vycor® Labware - Approximately
1mm Thick
Standards
Manufactured only by Corning. No federal or ASTM standards.
Chemical Composition
Composition
|
(percent
approx.)
|
| SiO2 |
96.4% |
| B2O3 |
3.0% |
| A12O3 |
0.5% |
| Misc. Traces |
0.1% |
Physical Properties
| Coeff. of
Exp. |
7.5 x 10-7cm/cm/°C |
| Strain
Point |
890°C |
| Anneal
Point |
1020°C |
| Soften
Point |
1530°C |
| Density |
2.18 g/cm3 |
| Youngs
Mod. |
6.7 3 103
Kg/mm2 |
| Refract.
Index |
1.458 @
Sodium D Line |
| Temp.
Limits |
1200°C
(Extreme Service) |
| 900°C
(Normal Service) |
Manufacture
This glass is formed as a borosilicate type glass. It is then subjected to a
chemical treatment that removes most of the elements in the glass except silica
(SiO2). Glass is then reheated to eliminate the microscopic holes
caused by the chemical treatment. Only quartz has a higher silica content.
Applications
Designed for use in all products that must withstand very high temperatures or
thermal shock. Can be sealed to 7740 glass with #6466 graded seals.
Products
11000 - beakers, 12940 - crucibles, 13180 - dishes, 16790 - heaters & water
still heaters, Vycor® tubing.
Warnings
1. Do not use hydrofluoric acid in any glass product.
2. Alkalis at elevated temperatures will etch glass.
Zinc Titania Glass
Code No. 0211
Used for Cover Glass
Standards
Proprietary Corning composition.
No current federal or ASTM standards on this glass.
Chemical Composition
Composition
|
(percent
approx.)
|
| SiO2 |
64% |
| B2O3 |
9% |
| ZnO |
7% |
| K2O |
7% |
| Na2O |
7% |
| TiO2 |
3% |
| A12O3 |
3% |
Physical Properties
| Coeff. of Exp. |
74 x 10-7cm/cm/°C |
| Strain Point |
508°C |
| Anneal Point |
550°C |
| Soften Point |
720°C |
| Density |
2.53 g/cm3 |
| Youngs Mod. |
7.6 x 103 Kg/mm2 |
| Refract. Index |
1.523 @ Sodium D Line |
| Surface Coating |
Proprietary |
Transmittance/Wavelength For 0211 Zinc Titania Glass - Approximately 1mm Thick
Applications
Designed specifically as a cover glass for attachment to microscope slides to
preserve and protect samples on the slides. Also ideal for making blood smears
suitable for microscopic examination.
Products
Cover glass and Micro-Sheet.
Warnings
1. Do not use in heat applications.
Soda Lime Glass
Code No. 0215
Used for Flint Glass
Standards
Glass commonly referred to as
Type II Soda Lime Glass per
A.S.T.M.-438 federal spec DD-G-54lb.
Chemical Composition
Composition
|
(percent
approx.)
|
| SiO2 |
73% |
| Na2O |
14% |
| CaO |
7% |
| MgO |
4% |
| Al2O3 |
2% |
Physical Properties
| Coeff. of Exp. |
89 x 10-7cm/cm/°C |
| Strain Point |
511°C |
| Anneal Point |
545°C |
| Soften Point |
724°C |
| Density |
2.40 g/cm3 |
| Youngs Mod. |
Not available |
| Refract. Index |
1.515 @ Sodium D Line |
Transmittance/Wavelength For 0215 Soda Lime Glass - Approximately 1mm Thick
Applications
General purpose glass used in the container and plate glass industry.
Products
Microscope Slides and Pasteur Pipets.
Warnings
1. Do not use hydrofluoric or hot phosphoric acid on glass.
Code No. 7799 Glass
Common Names
High Expansion Borosilicate
Standards
No federal or ASTM specs on this glass, but it does meet U.S. Pharmacopoeia
specs for Type I Borosilicate glass.
Chemical Composition
Composition
|
(percent
approx.)
|
| SiO2 |
70% |
| B2O3 |
10% |
| Na2O |
9% |
| Al2O3 |
6% |
| BaO |
2% |
| K2O |
1% |
| CaO |
1% |
| MgO |
0.5% |
| ZnO |
0.5% |
Physical Properties
| Coeff. of Exp. |
62 x 10-7cm/cm/°C |
| Strain Point |
525°C |
| Anneal Point |
560°C |
| Soften Point |
740°C |
| Density |
2.47 g/cm3 |
| Youngs Mod. |
Not available |
| Refract. Index |
Not available |
| Max. Temp. Limits |
Not available |
| Max. Thermal Shock |
80°C |
Applications
Used in pharmaceutical containers.
Warnings
1. Do not use hydrofluoric or hot phosphoric acid in glass.
2. Do not use in heat applications.
3. Do not use scratched or abraded glassware.
4. Hot alkalis will etch 7799 glass.
5. Will not seal to 7740 glass.
Special Note: Bottles made of 7799 glass can be identified by the word
"Corning" molded in the bottom along with "Made in USA."
Code No. 7789
Corning Trademark: PYREX® Common Names
Borosilicate - Low Expansion - Type I Glass
Standards
Type I, Class A Borosilicate conforming to federal specification DD-G-54 lb and
ASTM E-438 (except for K2O content). This glass also meets the U.S.
Pharmacopoeia specs for Type I Borosilicate Glass.
Chemical Composition
Composition
|
(percent
approx.)
|
| SiO2 |
81% |
| B2O3 |
13% |
| Na2O |
3% |
| Al2O3 |
2% |
| K2O |
1% |
Physical Properties
| Coeff.
of Exp. |
32.5 x 10-7cm/cm/°C |
| Strain Point |
510°C |
| Anneal Point |
560°C |
| Soften Point |
815°C |
| Density |
2.22 g/cm3 |
| Youngs Mod. |
6.4 3 103 Kg/mm2 |
| Refract. Index |
1.474 @ Sodium D Line |
| Temp. Limits |
Not available |
| Max. Thermal Shock |
160°C |
Applications
Designed for use in all products requiring very high resistance to strong acids
and alkalis. Products may be autoclaved. 7740 glass can be sealed to this
glass.
Warnings
1. Not recommended for use on hot plates.
2. Do not use hydrofluoric or hot phosphoric acid in glass.
3. Do not use scratched or abraded glassware.
4. Hot alkalis will etch glass.
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