Heavy metal free polyvinyl chloride compound formulation for...

Synthetic resins or natural rubbers -- part of the class 520 ser – Synthetic resins – At least one aryl ring which is part of a fused or bridged...

Reexamination Certificate

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C524S400000, C524S409000, C524S411000, C524S322000, C524S425000, C524S436000, C524S567000, C524S569000, C428S374000, C428S389000

Reexamination Certificate

active

06255374

ABSTRACT:

BACKGROUND OF THE INVENTION
The present invention relates to a formulation of polyvinyl chloride (PVC) compounds, particularly to high mechanical resistance compounds specially with regard to abrasion resistance and that do not contain stabilizers based on heavy metals.
Hereinafter the polyvinyl chloride will be referred to as PVC. In the art, it is known as a product used extensively in insulation and covers for electric conductor cables because of its low price and its availability as well as because of its dielectric and mechanical properties and its chemical and environmental resistance.
For this kind of formulations, PVC is always used with the addition of plasticizers to remove its natural rigidity and to supply the wished flexibility. Other additive agents, such as thermic stabilizers, lubricants, pigments, charges, impact modifiers and flame retarders are included in the formulation to obtain a PVC with the wished properties.
PVC, on its own, is thermally unstable, because it decomposes at a temperature close to 150° C. releasing HCI and producing unsaturated sites in the polymer thereby causing chain reticulation and rupture, resulting in the degradation of the polymer properties. While the PVC is being decomposed the resin changes color and becomes rigid and fragile.
In order to improve thermal stability, stabilizers for PVC compounds are applied. The most commonly used stabilizers are generally metal salts and organic or inorganic phenols, organometallics, epoxy compounds and phosphites. In the case of compounds designed for the insulation of automotive primary cables, PACKARD ELECTRIC ES M 2397 specification states that the compounds used for the manufacture of thin wall cables according to specification ES M 3089 should be lead free.
The automotive industry is being affected by the following factors: the legislation regarding the environment that compels the minimization of the environmental impact of the present vehicles both with regard to the emission they produce and to their construction and the wish to increase the efficiency, safety, luxury and comfort offered by the present vehicles.
These requirements have forced the vehicle manufacturers to modify the materials employed in the fabrication of the vehicles as well as their performance in use.
The first modification was the elimination of the noxious materials found in the polymeric compounds, among them PVC, which contained lead because of economic and electrical advantages.
In order to reduce the environmental Impact there have been improvements in the internal combustion engines to optimize fuel consumption. On the other hand, vehicles of smaller dimensions and weights have been designed and spaces in the various compartments have been reduced, leaving less space for the devices and their connection harnesses, that are ever more numerous to improve both safety and luxury. For these reasons, vehicle manufacturers have modified the cable designs, reducing the insulation wall thickness to diminish weight and diameter in order to increase the number of circuits within the same space. Said walls thickness reduction should not affect their performance.
DESCRIPTION OF THE INVENTION
One way of accomplishing the requirements mentioned in the previous section is the use of a high molecular weight PVC resin, which will give to the compounds increased mechanical properties. However another substitute polymer is preferred to reinforce the PVC in its mechanical, abrasion, puncture, etc. properties since there is a shortage of resins of high molecular weight on the national market.
On the other hand, because of the breaking resistance requirements at low temperatures and in order to main its properties upon being exposed to high temperatures, 11 and 9 carbon atom co-ester phthalic type plasticizer has been chosen, which has a freezing point of −60° C. and a low volatility at high temperatures because it is a co-ester structure.
Among the principal characteristics that the cable must have, there are the following:
Breaking stress
Breaking elongation
Temperature resistance (aging in an oven)
Resistance to the different fluids to which the cable is exposed: gasoline, motor oil, transmission oil, hydraulic fluid, brake fluid, antifreeze fluid, battery electrolyte
Abrasion resistance
Low temperature breaking resistance
Puncture resistance (slump resistance)
Flame resistance
The compounds with high resistance to abrasion, puncture and automotive fluids of the present invention are based on a PVC or another homologous resin blend with a series of additives. The number of the components of this formulation is expressed in parts per hundred parts of resin or additional resins.
All the components that integrate the formulation are materials of certified quality according to the following information:
a) PVC RESIN 250, homopolymer PVC resin of K value=70 that corresponds to a resin of medium viscosity and molecular weight, PVC Chemical Abstract. Registry No. 9002-86-2.
b) SYNPRON 1890 (Ferro Corporation Polymer Additives), Zinc based stabilizer that is substantially devoid of cadmium or calcium.
c) MORTHANE 455-300(Horton International Specialty Chemicals Group) ester type thermoplastic polyurethane resin.
d) Antimony trioxide, flame retardant according to Chemical Abstract Registry No. 01309-64-4.
e) Precipitated calcium carbonate, Chemical Abstract Registry No. 1317-65-3.
f) HI-SIL 233, Colloidal precipitated amorphous silica, Chemical Abstract Registry No. 112926-00-8.
g) PALATINOL 11 9p (BASF Corporation) 11 and 9 carbon atom co-ester linear phthalic plasticizer.
h) PALAMOLL 652(BASF Corporation), adipic polymer plasticizer.
i) IRGANOX 1076 octadecyl-3,5-diterbutyl-4-hydroxyhydrocinnamate, according to Chemical Abstract Registry No. 2082-79-3.
j) Calcium stearate, a lubricant with the following registration: Chemical Abstract Registry No. 1592-23-0.
k) POLYETHYLENIC WAX AC-629 Oxidized polyethylene homopolymer, Chemical Abstract Registry No. 9002-88-4.
In thermoplastic materials based on PVC, lead stabilizers such as dibasic lead phthalate and tribasic lead sulfate are frequently used as thermic stabilizer agents for electric use. However, in the case of the compounds designed for use in insulators of automotive cables and because of the requirements of the car manufacturers, zinc based stabilizers have been used even though other kinds of stabilizers can be used. Among them are barium soap, barium cadmium soap or a mixture thereof such as MARK OHM which is a barium cadmium soap.
Similarly, other antioxidants, besides IRGANOX 1076, can be used, such as TOPANOL CA, and the phenolics such as Bisphenol A.
Besides calcium stearate, a large number of lubricants can be used such as stearic acid, paraffinic and polyethylene waxes such as AC 629 A or a mixture of them.
As previously mentioned co-ester plasticizers have been chosen due to their low volatility at high temperatures and their low freezing point. However, depending on the final requirements of the cable, other plasticizers of other types can be used.
The preferred embodiment of the formulation object of the present invention defined in qualitative terms will be described hereinafter:
Polyvinyl chloride such as PRIMEX 250 resin, from 60 to 100 parts from 75 to 100 parts per hundred parts of resin.
At least a thermal stabilizer used in PVC compounds for automotive cables such as SYNPRON 1890, from 1 to 6 parts per 100 parts of resin, preferably from 3 to 4 parts per hundred parts of resin.
At least one effective antioxidant for PVC based thermoplastic materials, such as IRGANOX 1076 or a similar one, in a total quantity from 0.2 to 2.0 parts per 100 parts of resin.
At least a lubricant effective for PVC based thermoplastic materials, such as calcium stearate and/or similar or a mixture thereof, in a total quantity from 0.15 to 2.0 parts per hundred parts of resin.
A precipitated calcium carbonate charge and a colloidal silica charge in quantities from 10 to 50 parts per 100 parts of resin, preferably from 15 to 25 parts per 100 parts of resin.
A retarder based

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