DE2007723A1 - Molding compounds - Google Patents

Description

AHERAOE SSHA CORPORATION, Hew York, 5th YA

"Molding compounds"

The invention relates to molding compounds and to objects produced therefrom, such as, for example, battery containers and battery covers, which objects have satisfactory chemical properties (in particular resistance to aggressive chemicals such as battery electrolytes) and a satisfactory combination of stiffness (it is subsequently used referred to as "flexural modulus ⁿ ) and have impact resistance»

Articles such as battery containers and battery covers have heretofore been primarily made from bulk mixtures of chewing carbon hydrogen polymers and one Anthracite coal dust fillers consist »A typical approach for such a composition is as follows:

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Table A fges & 3 State of the technology) Qtw. Ht Rubber carbon polymer 9.021 Puller (anthraite coal dust) 74,399 Lime (activator) 4.903

Sulfur, 2.287

Anti-foaming agent 0.214 Accelerator 0.543

oil e

100,000

It should be emphasized that in the composition of Table A the sulfur content is approximately 25.3 % ₉ based on the content of the Eautohukkohlenwaseerreetoffpolymer. The definition in Table A can be referred to as a hard rubber California lake, since the generally accepted definition of hard rubber dimensions is given when the ratio of sulfur: rubber hydrocarbon polymer is greater than 25 J 100 liters.

The lime acts as an activator for the vulcanization of the rubber. The sulfur acts as a vulcanizing agent (crosslinking agent). The mold release agent can consist of a high molecular weight, long-chain aliphatic amine, such as that sold by Armor dt Co. under the name "Armeen". The accelerator can be an accelerator of the aldehyde / Amia ~ type, such as is sold by the Monsanto Company under the designation "A-IOQ *, although other accelerators such as ε.Β" diphenylguanidine (DFG-) are just as good are wit A-100 and instead of this · »Substance can be used« The oil can be petroleum, which acts as a plasticizer »Other combinations of accelerators, activators and processing aids are known and can be used instead of the above mentioned agents. in order to achieve the desired vulcanization rate.

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To determine whether a battery case or a battery cover is satisfactory, it has heretofore been customary to test the hardness and the impact resistance. A minimum hardness of 63 Shore D in combination with an impact resistance of at least 5 units (vle defined below) has been used so far considered necessary.

Anthrasite coal dust can be quite expensive. As a result, many attempts have been made to replace the anthracite coal waste with cheaper PUllermaterialiallen, vle 2.B ₀ with finely divided petroleum liquor alone or in combination with solidifying agents such as Portland cement, as indicated, for example, in US Pat. No. 2,883,358. Efforts to date to use finely divided petroleum coke instead of anthretite coal dust have consistently resulted in porous objects with so poor physical properties that they could not be used for this purpose.

In particular, it has been found that when finely divided Srdölkoke instead of the anthracite coal dust on a 1: 1 basis was used and a deformation was carried out under the usual conditions for coal-filled wetlands, either the The molded article was satisfactory in terms of flexural modulus but unsatisfactory in terms of impact resistance or the material as a result of excessive vulcanization has been completely dismantled.

According to the invention, a molding compound is proposed which characterized in that it consists of a mixture of the following composition: not less than approximately 8 wt. - ^ rubber hydrocarbon polymer, based on the entire mass; a filler made from finely divided Brdölkoks consists in an amount of at least 2 times the weight

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a 4, -

of the gummed hydrogen polymer; Sulfur in an amount considerably less than 25 % by weight of the chewing coal hydrogen polymer; and an accelerator; where the carbon hydrogen polymer and the filler together add up to at least 65 ounces of the total mass.

According to the invention, a molded article is also proposed, which is characterized in that it consists of a molding compound which can be as follows: not less than approximately Filled off, which consists of finely divided Srdölkoke, in an amount of at least twice the weight of the loud hydrocarbon polymer sulfur in a weight amount is less than 25 % of the chewing charcoal Tiwaeeeretoffpolyeerei and an accelerator where the chewing charcoal at least 65% of the mow the whole mass

The molding composition according to the invention therefore contains a chewable carbon polymer and as a filler a finely divided oil mixture can be used in brewable materials be rerformed, as i.l. in battery containers or battery covers, the one usable bending module and one usable Beaitsen impact resistance and against certain aggressive chemicals, especially battery electrolyte.

The impact strength values as used herein are measured by läfit a steel ball weighing 0.907 kg from increasing heights onto the center of a sample ▼ of 101.6 101.6 ζ 3.2 mm, whereby this sample rests centrally on a ring with an inner diameter of 76.2 seconds. An impact strength of ^tt 5 units "means, for example,

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that the specimen does not break if the ball is dropped from a height of at least 5 x 25 »4 mm» Bine impact strength of ^M 6 units ¹¹ means that the specimen does not break if the ball is dropped from a height of at least β χ 25.4 mm is dropped.

The flexural modulus values used in this description are measured by applying a deformation force to a specimen of 304.6 ζ 25.4 x 3.2 mm and determining the force required, a deformation of 2, Create 5 mm su. The deformation force is applied centrally to a free stretch of 254.0 mm of the specimen. If a force of 5x 0.454 kg is required, generate a deformation of 2.5 am, because the specimen has a flexural modulus of "5 units ¹ * · I «nn • int force of 3 χ O _t 454 kg causes a deformation of 2.5 am, then the specimen has a flexural modulus of" 3 units ".

The term "finely divided Erdölkoke" refers to a sieve analysis such that 95 mm to 96 # through a sieve of 0.073 hash width and 85 to 92 $> through a sieve of mesh width 0.044 on passing _β

During the work that led to the present invention, it was found that known molding compounds which contain a finely divided petroleum coke as a filler vulcanize more rapidly than compounds which contain a filler made from anthracite coal dust. D ₀ ho, then, that such coke-filled masses take on a higher hardness when deformed than coal-filled masses? The rapid hardening of the previously known coke-filled compounds therefore often resulted in excessive vulcanization and a deterioration in the physical properties.

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During this work -ward "also feet found that for a given Shore B hardness coke filled j th f _f msammeneet" Ungen the ke: ~ 1 egefUllten Eusammeneetsunge "with respect to the flexural modulus Consider Bind" noted Ss wurds n £ Lieh that a Shore D hardness yob 63 represents the minimum hardness for satisfactory coal-filled maize, whereas for coke-filled GemiBohen the minimum hardness only has to be about 59 Shore D. The essential point is that the hardness can be measured quickly and that it is related to the flexural modulus, although this relationship is different for coal-filled masses and coke-filled masses.

But despite the reduced minimum hardness that is required for coke-filled ones Meetings required were those previously known coke-filled masses dissatisfied.

ISa was found to have both impact strength and The flexural modulus of the resulting molded articles is remarkably improved the Vulkanisationsgeschwindlgkeit, if one takes measures reduce the coke-filled masses and / or reduce the possible degree of vulcanization

In Example 1 below, it was found that a ? ormmass · both improved impact resistance and also results in improved flexural modulus in battery containers and battery covers made therefrom.

example 1 _t Chewable carbon fiber off-polymer 9 # 021 Filler (finely divided Brdölkoks) 75,185 Lime (activator) 4.903

Soh sulfur 1.144

Deforestant 0.214

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Accelerator 0.272

oil 8,635

100,000

It is pointed out that the ratio "up known Hasse dtr Table A. dl · 2ueajnB * ns * tsung dee Example 1 a τοη 25» 3 * to about 12.7 Ji (based on the content of the leutechkohlenwaseeretoffpolyners) soh sulfur content and a tob O ₁ 543 % on O ₉ 272 f (referred to on dl · Kassel) has reduced accelerator content. The reduction in the amount of accelerator reduces the volcanization speed with the same peat formation degradation and also reduces the level of excess volatility.

When the mass tob Example 1 was vulcanized under pressure at the usual rauteohukrulkanieierungeteaperatur τοη about 1β7, θ ° 0 5 to 10 HlBUtSB in order to put in battery containers and battery covers, then it was set that the battery case and battery cover would be used Had impact resistance to objects that had been produced from the cash register τοη table A ₉ , however, where 1 t 1 was exchanged for Loke. In particular, the battery containers and battery degradations produced from the cheese τοη Example 1 had a flexural module τοη more than 5 units and a bottom bracket τοη more than 5 units and were dealt τοη a satisfactory trade quality, the quality of the cheese and the hardness of the battery holder τοη Example 1 had been produced, were at current Yerfornungesyklsn bsi about 95 Shore D and bsi

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longer aging cycles at about 65 Shore D ₀

In many areas of the Srde, anthracite coal-deaf costs twice as much as finely divided Brdd * lkok * · Furthermore, coca-filled "masses have a visibility advantage of about 5 % compared to conventional" coal-filled ones

The drastic cost reduction that the present invention allows, ffi & ohi eiae further remarked Verbeeeerrsng aSglioh, dt is. economic Vtlee a small Srhuhvng de "holdings on J3 ^ utöchti) ücoiblenv * e0öretoffpolyaer can be carried out, ie. from «nführ 9 (Jew .- ^ l auf TingefMar 11 Oew.-Jt. Bine eolohs Has» · is treated la the following example 2,

Belapiel ^

Chewable carbon fiber polymer 10.71

filler (two-part frdölkok ”) ^ 9.43

Lime (activator) 5.84

Sulfur 2.12

Batf oreuagtJdtt ·! O ₁ 25 BeMhlevalger 0.26

oil 1 ^ -19

100.00

In the Maeae of Example 2, the sulfur content is approximately 19.8 £, based on the »content of chewed coal waeeeretoffpolymer ·

Ia following Example 3 is given a erfindtmgegeaäaee goring ", which is about 11 f> Zaateohxikkohlenwaeeemtoffpoly- he ■ contains.

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Belspi »1 5

Chewy hydrocarbon fpolyme? 11 ₁ 168 Filler (f one-piece BrdSlkoka)? 2, ΐ48 Lime (activator) 5.719

Sulfur 2,383

BntforaungeBittel. 0.271

Accelerator 0.346 oil

100,000

In the case of the cash register τοη example 3, the sulfur content is approximately $ 21.4, based on the content of rubber hydrocarbon ~ polymer

It was found that the battery received!) He or she the battery cover obtained had a better flexural modulus and a better impact resistance than is obtainable with carbon-filled masses if the battery container or the battery cover from the hatred tob. Example 2 or the Hasse τοη Example 3 under the conditions given in Example 1 conditions was established.

It has been found that satisfactory results can be obtained in old coke-filled hats in which the sulfur content is considerably less than $ 25,000 in relation to the content of chewable sulphide base polymer. The sulfur content is torsugly in the range of about 12 to about 22 % _t depending on the content of rubber hydrocarbon polymer.

It has also been found that satisfactory results can be obtained with coke-filled hats in which the accelerator content is substantially less than 0.54% and Torsug'-wise not greater than £ 0.35.

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- ίο -

Finally, it is also established that according to the invention the content of ü & ursch ^ kkohlanwaeoe ^ stöffpolymer ia dtr Maeee only needs to be approximately S #.

The filler content of the mass is not critical and only needs to be 50%, in the latter case the content of chewed oil * carbon fiber resin should be about 15 to 25 % .

This is followed by Mngevieeen, d «J dl · Maceen of the examples 1, 2 and 3 are not Hartgumaiforiun & eeen.

The combinations of Table A and Examples 1> 2 and 3 were made in one using τοη common mowing techniques Banburj ^ iBcher produced «The Eauteehukkohlenwaeeeretoffpolymer Can be made from a wide variety of rubber and Tertrfigllohen Syntheeekuteohuken or Qemieohen of the same exist, as disclosed, for example, in U.S. Patent No. 2,883,358 is, PUr the TerfoxnremgSTerfahrsA can be the usual Method used as t.B. Die cast or petrol "poured,

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Claims (1)

P & tentwPBpruche 8. 1. Molding compound, characterized in that lie au one Mixture of the following composition consists: not less than about θ wt. -Jt Eäutschukkohlsnwasestoffpolymer, be-Eogen on the whole crowd; iron filler made of finely divided SrdBlkoks exists, in a slope from i & ind at least the 2-fold weight of the chewing carbon fiber polymer; Sulfur in a quantity of cattle less than 25Jt des BJatttBOhukkohlenvaeaeretoffpolymere | and a bee coal duo; vobei the Sautaehukkohlenvaaeeretoffpolymer and the Biller geaeinaaa adndeatena 65 flev.-fi of the entire Maese maohen » 2. Foranaas * after Asapruom 1, dadareh marked that the sulfur content between 12 and 22 Gev.-jft, bssogen on de © Content of Fjwtsohukkohydrocarbonpolymer, is ·. 5. Molding composition according to claim 1 or 2, characterized in that that the accelerator tos in a lot. less than 0.54 weight percent and Yoraugewsiee in an amount tob less than 0.35, weight- £, over the entire Meuse «, is present. 4 »molding compound according to buckets of claims 1 to 3» characterized by that the accelerator consists of an aldahyd amine or consists of diphenylguanidine. 5. Molding compound according to one of claims 1 to 4, characterized in that that the content of construction coal hydrogen polymer is about 9% by weight, the filler content is about 75% by weight, the accelerator content is approximately 0.27 Gev.-Jt amounts to (all absorbed to the entire mass) and the Sulfur content about 13 G «v.« 4 ((based on the content on Imutsohttkkohlenwasserstoffpolymer) is ·. 009836/2252 \ 6, OranaeB according to claims 1 to 5, characterized in that the content of EautaohukkOhlainraaearatoffpoly- ■ er is 10.5 to 11.5 Qw .- *, the content of filler is 65 to 75 weight percent, the The content of beacbletmlgar is 0.25 to 0.35 Oex .-? C (all based on the geaante Haaee) and the content of sulfur is 19 or 22 percent by weight (based on the content of chewable kohlanvaaeeretoffpolyaer). 7. Vervendmg the Pornaaaaen naoh one of claims 1 bia 6 sturdy manufacture τοη? and battery covers 009836/2252