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Technical Information

We fabricate glass parts from best raw material from various leading manufacture for its production. On request, we also produce glass parts from Leading European Borosilicate Glass 3.3 tubing supplier which fulfills all major standards of DIN ISO 3585 & ASTM E438 Type I, Class A and thus offering high accuracy & excellent optical properties which is at par to other leading manufactures across the globe.

Borosilicate glass represents unmatched standardized glass for construction of plant and piping in the chemical, dyestuff, food pharmaceutical, petrochemical industries. Its steadily growing use is due to many advantages over conventional materials.
- Outstanding corrosion resistance
- Smooth pore free surface.
- Transparency
- Catalytic inertness.
- No effect on taste and odour.
- Physiological inertness.

Borosilicate glass is chosen for its unique chemical and physical properties. Borosilicate glass can be considered as being composed of oxides. Silica (SiO2) Magnesia (MgO) and lead oxide (PbO) are the principle modifiers/fluxes.
The chemical and physical properties of any glass depends on a varying degree on chemical composition of glass.

- > CHEMICAL COMPOSITION

The composition of borosilicate glass used for chemical plants has following approximate composion.

SiO2 - 80.6% B2 O2 - 12.5%
Na2O - 4.2% Al2O3 - 2.2%








- > RESISTANCE TO CHEMICAL

Borosilicate glass is inert to almost all materials except hydroflouric acid (HF) phosphoric acid((H3Po4) and hot strong caustic solutions. Of these Hydroflouric acid has the most serious effect, even when it is present in PPM (parts per million) in solutions. Where as phosphoric acid and caustic solutions cause no problems when cold but at elevatrd temprature corrosion occurs. in case of caustic solutions upto 30% concentration can be handled safely at ambient temperature.

Under actual operating conditions, the effect of turbulence, and traces of other chemicals in the solution may increase of decrease the rate of attack. So it is not possible to give exact figures for corrosion by caustic solutions.


- > THERMAL PROPERTIES

Linear coefficient of thermal expansion
The coefficient of thermal expansion of borosilicate glass over the temperature 0 - 300°C is 3.3 x 10-6/°C. This is very low when compared with other glasses and metals. That is why, borosilicate glass is often called low expansion borosilicate glass.
Specific heat
Specific heat between 25°C and 300°C is average to be 0.233Kcal/Kg, °C
Thermal Conductivity
Thermal conductivity is 1.0 Kcal/hr,m°C. Over the permissible operating temperature range.


- > ANNEALING

Annealing of glass is the process where the glass is heated and kept for a defined period of time to relive internal stresses. Careful cooling under controlled conditions is essential to ensure that no stresses are reintroduced by chilling/cooling.
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- > RESHAPEING

In the given below are shown characteristic temperature at a determined viscosity, essential for glass reshap.

Lower cooling temperature 1024 poise 515°C
Upper cooling temperature 1013 poise 565°C
Softening point 107 poise 795°C
Reshapeing point 104 poise 120° C











- > MECHANICAL PROPERTIES OF BOROSILICATE GLASS

The lack of ductility of glass prevents the equalization of stresses at local irregularities or flaws and the breakage strength varies considerably about a mean value. This latter is found to occur at a tensile strength of about 700kg/cm2
In order to allow for the spread of breaking stress, a large factor of safely is applied when determining the wall thickness requirement to allow operation up to values given in the table of working pressure.


- > OPTICAL PROPERTIES OF BOROSILICATE GLASS

Borosilicate glass show no appreciable absorption in the visible region of spectrum and therefore appears clear and clour less.
In photo chemical processes the transparency of ultra violet is of particular importance. It follows from the transmittance of material in uv region that photo chemical reactions such as chlorination & sulpho chlorination can be performed in it.


- > PERMISSIBLE OPERETING CONDITIONS FOR BOROSILICATE GLASS

The permissible internal operation pressure depends upon the nominal diameter of the glass components and on working temperature.
In case of unit with various combination like vessels, filters, heat exchangers, the over all permissible internal gauge pressure is always governed by the components with the lowest permissible operating gauge pressure. All components are suitable for full vacuum.

Bar is a mesure of absolute pressure. The figure given for maximum recommended working pressure represent pressure above atmospheric.
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- > WORKING TEMPERATURE

Borosilicate glass retains its mechanical strength and will deform only at temperature which approach its strain point. The practical upper limit for operating temperature is much lower and is controlled by the temperature differentials in the glass which depends on the relative temperature differentials in the glass which depends on the relative temperature of the contents of the equipment and the external surroundings. Provided borosilicate glass is not subject to rapid change in temperature, creating undue thermal shock, it can be operated safety at temperatures up to 250 °C.

It must be realized that in complete plants, composed not only of borosilicate glass, but also includ other materials such as PTFE the recommended max. Operating temperature is 200°C. Operating temperatures may have to be modified so as to compensate for the effects of other factors such as pressure, thermal cycling, rapid heating cooling etc.

The degree of thermal shock (usually defined as sudden chilling or heating) which it can withstand depends on many factors such as stresses due to operating conditions, stresses imposed in supporting the equipment, the wall thickness of the glass. It is therefore undesirable to give sudden temperature changes. But up to 120 °C can be accommodated.
At sub-zero temperature, the tensile strength of borosilicate glass tends to increase and equipment can be used with safety at temperatures as low as -50 °C for XTRONG and components.


- > COMPOSITE MATERIALS

The last two decades have seen the new or further developments of particularly corrosion resistant plant construction materials. Typical examples of these are PTFE, tantalum, titaniu, graphite and of course, Borosilicate 3.3 glass.

The combination of different corrosion resistant materials with the utilization of the specific advantages of each permits both safe and economic construction.


- > Borocilicate Glass/PTFE

Borosilicate glass with PTFE is of particularly decisive importance for construction of glass installation for example. In Seals, Bellows, Stirrers, Pumps, Heat exchangers, Columns Inserts etc.

PTFE is used with Glass because of its excellent mechanical & thermal properties. They have near universal fluid compatibility. Wear life when compared with others is very low. Particularly PTFE is maintenance free and have cryogenic stability with non wetting property.

Service temperature of PTFE is considered as - 50°C to +200°C


- > ELECTRICAL CHARACTERISTICS - BOROSILICATE GLASS

Glass being a poor electrical conductor, surface, conductivity is insignificant and varies with the quantity of water absorbed on glass surface. The specific conductivity is 10°ohm/cm at temperature of 200°C. The dielectric coefficient varies with current frequency.


- > DENSITY BOROSILICATE GLASS

- Density of glass at 20°C(J)=2.23g/cc
- Modulus of elasticity (E)=6.3 KN/mm2
- Poissions ratio=0.2

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- > EXTRA PROTECTION OF GLASS COMPONENTS 'X BONDING'

X BONDING provide an added advantage of protection of standard glass components. The major advantage of X-Bonding systems is that if the glass is subject to accidental breakage, the bonded wrapping provides additional protection against the risk of injury, release of corrosive fluids or loss of expensive products.

X BONDING is a glass reinforced fibre coating which provide a higher level of protection on the glass components. This does have a slightly adverse effect on the transparency of the glass, making it translucent & not transparent.


- > Permissible Operating Temperature:

The permissible operating temperature for X-Bonding is 130’ C unless limited by the individual operating temperature of the said component.


- > Permissible Operating Pressure:

The permissible operating pressure for X Bonded components is same to that for standard glass components.


- > Thermal Shock

Despite the thermal insulating effect of X Bonding, the thermal shock characteristics remain the same as standard glass component.