MANUFACTURING FACILITY |
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- Sate of the Art Manufacturing Plant
- Closed System
- Large warehousing spaces self-owned to store raw materials and finished pro
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LABORATORY |
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- In House facilities for all chemicals test
- In House Gas Chromatography
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UTILITIES |
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- All Utilities Self-Generated, hence less dependence, Steam Boiler, Chiller, Cooling Tower, Water Treatment plant
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PRODUCT |
- High Quality Waxes
- As per Carbon Distribution required
- Low Oil Content
- Available in Pellets.
- Eva bag packing also available
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PACKAGING |
- 20-50 kg HDPE Bags
- 25-50 kg Carton Boxes
- Palletization also available
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SALES |
- Major Customers are
- Apollo Tyres
- JK Tyres
- Vikrant Tyres
- TVS Srichakra
- MRF LIMITED
- Ceat Limited
- Metro Tyres
- Ralson Tyres
- Exports to Sri Lanka, USA & Mexico
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ADVANTAGES OF GUJARAT PARAFFINS AS A VENDOR |
- World Class Quality and Technical Support at a reasonable Cost
- Local Stocks
- Immediate Deliveries and technical service
- Proven track record at several Tyre companies for over 50 years
- Tie up with refineries in Indonesia, Turkey, China, India, Hungary, Malaysia, Korea for regular supplies of raw material.
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SPECIFICATION |
REFINED PARAFFIN WAX - DUWAX II |
Sr. |
Parameters |
Specifications |
Test-Method |
1 |
Appearance |
White Pallets |
Visual |
2 |
Specific gravity of solid by liquid displacement (typical) |
0.915 |
IP59/82 Balance Method |
3 |
Conjealing Point |
60.0°C-63.0°C |
ASTMD 938-71 |
4 |
Drop Melting Point |
62.0°C-68.0°C |
ASTMD 127-63 |
5 |
Ash Content |
0.1% |
ASTMD 482-80 |
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REFINED PARAFFIN WAX - DUWAX II |
Parameters |
Specifications |
Test-Method |
Colour |
White to Yellow Pallets |
Visual |
Congealing Point |
63.0°C---70.0°C |
ASTM D 938-71 |
Viscosity at 100°C |
6.5---7.2 Cst |
ASTM D 445-83 |
Refractive Index at 100°C |
1.4255---1.4320 |
ASTM D 1747 |
Ash Content |
0.1% Max |
ASTM D 482-80 |
Oil Content |
0.1% |
ASTM D 721 |
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TYRE WAX 114 |
Sr. |
Parameters |
Specifications |
Test-Method |
1 |
Appearance |
White to Yellow Pallets |
Visual |
2 |
Congealing Point |
63.0 °C - 70.0 °C |
ASTMD 938 |
3 |
Drop Melting Point |
75.0 °C - 82.0 °C |
ASTMD 127 |
4 |
Viscosity @ 100 °C |
6.5 - 7.2 Cst |
ASTMD 445 |
5 |
Refractive Index @ 100 °C |
1.4288 ± 0.0032 |
ASTMD 1747 |
6 |
Ash Content |
0.1 % Max |
ASTMD 482 |
7 |
Oil Content |
1.0 % Max |
ASTMD 721 |
8 |
Centering Point of the Peak |
C25 ± 1
C32 ± 1 |
ASTMD 5442 |
9 |
Normal Hydro Carbon |
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ASTM D5442 |
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C20 - C24 |
11-23% |
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C25 - C29 |
28-44% |
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C30 - C34 |
25-50% |
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C35 - C40 |
4-20% |
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TYRE WAX 222 (Ozone Protecting Wax) |
Sr. |
Parameters |
Specifications |
Test-Method |
1 |
Appearance |
White to Pale Yellow
Pellets |
VISUAL |
2 |
Drop Melting Point |
68.0oC - 75.0oC |
ASTTVI D 127 |
3 |
Congealing Point |
64.0oC -71.0oC |
ASTM D 938 |
4 |
Soecific Gravitv
(Typical) al25oc |
0.920 |
!P / 59
Balance Method |
5 |
Refractive lndex at
100oc |
1.420 - 1.440 |
ASTM D 1747 |
6 |
Ash Content at 750oc
for 2 hours |
0.2% Max |
ASTM D 482 |
7 |
n-Paraffin Content |
60-73% |
ASTM D 5442 |
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Centering of the Peak |
C25±1,C32±1 |
ASTM D 5442 |
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Total n-Paraffin
Content |
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C20 -C24 |
11 - 23% |
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C25 -C29 |
28 - 40% |
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C30 -C34 |
25 - 45o/o |
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C35 - C+40 |
8 - 24o/o |
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TYRE WAX (333) |
Parameters |
Specifications |
Test-Method |
Appearance |
Yellow/Brown Pallets |
Visual |
Congealing Point |
58-62 Deg c |
ASTM D 938-71 |
Refractive Index at 100Deg C |
1.438 ---- 1.442 |
ASTM D 1747 |
Viscosity at 99 Deg C |
6---8 MAPS |
ASTM D 445 |
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TYRE WAX (666) |
Parameters |
Specifications |
Test-Method |
Congealing Point |
63.0 °C - 70.0 °C |
ASTM D 938-71 |
Refractive Index at 100°C |
1.426 - 1.430 |
ASTM D 1747 |
Specific Gracity @ 25°C |
0.900-0.920 |
IP 59/82 Balance Method |
Needle Penetration @ 25°C (100gm) |
14.0-19.0 |
ASTMD 1321 |
Oil Content |
1.0% Max |
ASTMD 721 |
Carbon Number Distribution |
Fraction |
ASTMD 5442 |
≤ C24 (n-paraffin) (iso Paraffin) (n + isoparaffin) |
0.9-5.5
0.0-0.5
1.0-6.0 |
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C25-C29 (n-paraffin)
(iso Paraffin)
(n + isoparaffin) |
13.0-19.0
1.0-3.5
14.0-22.5 |
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C30-C34 (n-paraffin)
(iso Paraffin)
(n + isoparaffin) |
25.5-32.5
9.5-15.5
39.0-47.5 |
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C35-C39 (n-paraffin)
(iso Paraffin)
(n + isoparaffin) |
9.0-16.5
11.0-16.5
19.0-32.0 |
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C40-C50 (n-paraffin)
(iso Paraffin)
(n + isoparaffin) |
1.5-7.0
4.0-8.0
6.0-13.0 |
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>C50 (n-paraffin)
(iso Paraffin)
(n + isoparaffin) |
0.0-1.5
0.0-1.0
0.5-2.5 |
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(n-paraffin)
(Total iso Paraffin)
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60.0-70.0
30.0-40.0
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TYRE WAX (111) |
Parameters |
Specifications |
Test-Result |
Test-Method |
Colour |
White to Yellow Pallets |
White Pallets |
Visual |
Congealing Point |
63.0°C ---70.0°C |
64.0°C |
ASTM D 938-71 |
Viscosity at 100°C |
6.5 ---- 7.2 Cst |
6.9 Cst |
ASTM D 445-83 |
Refractive Index at 100°C |
1.4255---- 1.4320 |
1.430 |
ASTM D 1747 |
Ash Content |
0.1% Max |
0.02% |
ASTM D 482-80 |
Oil Content |
1.0% |
0.8% |
ASTM D 721 |
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TYRE WAX 600 |
Parameters |
Specification |
Test Method |
Appearance |
White to yellowish pallets |
Visual |
Congealing Point |
64.0°c - 69.0°c |
ASTMD 938 |
Specific Gravity (Typical) |
0.910 - 0.920 |
IP 59/82 Balance Method |
Refractive Index @ 100°c |
1.425 - 1.431 |
ASTMD 1747 |
Ash content @ 950°c, 1 hour |
0.1 Max |
ASTMD 482 |
Carbon Number Distribution |
Fraction |
ASTMD 5442 |
C31 |
8-12% |
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C32 |
8-12% |
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C33 |
8-12% |
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≤C22 |
Max 2.5% |
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≥C43 |
Max 3.0% |
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n-Paraffin content% |
75-85% |
ASTMD 5442 |
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TYRE WAX 126 |
Parameters |
Specification |
Test Method |
Appearance |
White to pale yellow pallets |
Visual |
Congealing Point |
70.0'c - 76.0'c |
ASTMD 938 |
Drop tMelting Point |
70.0"c - 82.0'c |
ASTMD 127 |
Refractive lndex at 100'c |
1.425 - 1 .431 |
ASTMD 1747 |
Kinematic Viscosity @ 100"c |
7.5 -9.5 cst |
ASTMD 445 |
Ash content @ 850"c, |
0.10% |
ASTTUD 482 |
Specific Gravity AT 25 "c |
0.91 - 0.92 (Typical) |
lP 59 Balance Method |
Carbon Number Distribution |
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≤c24 |
0-3% |
ASTMD 5442 |
c25-C29 |
6-13% |
c30-c34 |
34 - 48% |
c35-C39 |
29 - 42% |
c40.c50 |
10-19 % |
>c50 |
0-2 % |
Total |
n-Paraffin |
80 - 90 % |
lso-paraffin |
10 -20 % |
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INDRAMIC 800-A (DUWAX X) |
Property |
Method |
Min |
Max |
Drop melting point, "F ('C) |
ASTM D-127 |
171(77.2) |
200(93.3) |
Oil Content, wt% |
ASTM D-721 |
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2.5 |
Viscosity @ 210'f, eSt |
ASTM D-445 |
9.0 |
21.0 |
Penetration @ 77'F,dmm |
ASTM D-1321 |
6 |
- |
Penetration @ 110'F, dmm |
ASTM D-1321 |
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35 |
Flash point, 'F ('C) |
ASTM D-92 |
400 (204) |
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Organic insoluble matter, % |
MIL-W-20553D Specs |
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0.03 |
Alkalinity, % |
MIL-W-20553D Specs |
- |
None |
Acidity, as acctic acid, % |
MIL-W-20553D specs |
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0.01 |
Exudation @ 71'C, 24 hours, % |
MIL-W-20553D specs |
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3.0 |
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WHY DUAL PEAK MC WAX ?
Microcrystalline/Paraffin wax is a specific type of petroleum-based wax originally derived from crude oil. During the petroleum refining process, the crude oil is de-oiled and leaves behind this unique type of wax. Microcrystalline wax has a smaller crystal structure than other types of wax, making it more viscous and flexible. The main microcrystalline properties
can vary slightly depending on how refined it is. The color will also range from white to a more brownish hue based on the stage of the refining process.
Because of the unique properties of microcrystalline wax, it is useful for various purposes and is used in many different industries. Some of the most common uses of microcrystalline wax include:
Useful for preventing rubber from becoming degraded or otherwise damaged in
contact with ozone in the atmosphere. Dual peak compositions comprising blend of wax (Paraffin + Microcrystalline) one having a carbon number greater than the other. The wax compositions contain a selected weight percentage (x) of normal chain hydrocarbons having a peak carbon number and a selected weight percentage (y) of normal chain hydrocarbons having a carbon number slightly higher than the previous peak. It also contain approx. 10-20 % of iso -paraffin depending upon the requirement of the users .Selected weight
percentages of the respective hydro carbons permit the wax composition to exhibit and maintain the desired performance in a relatively widely varying temperature environment.
The wax tends to diffuse and bloom on the surface of the rubber with a lapse of time forming a film phase which functions physically to protect the rubber from deterioration by ozone throughout the seasons.
As a result of this enique composition ; it strike a balance between ozone protection without creating a blooming issue. |
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