Performance of Conductive Carbon Blacks in a Typical Plastics System

17 Performance of Conductive Carbon Blacks in a Typical Plastics System J.

H.

SMUCKLER

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Conductive Polymer Corp., Marblehead, Mass. 01945 P.

M.

FINNERTY

Cabot Corp., Billerica, Mass. 01821

Carbon black, used primarily as a reinforcingfillerin rubber, exhibits properties of electrical conductivity and physical form which render it the preferredfillerfor imparting con­ ductivity to normally insulative elastomeric and thermo­ plastic polymers. The properties of carbon black important in imparting conductivity to polymer systems are discussed. The effects of three different carbon black types at varying concentrations on the electrical, physical, and rheological properties of poly(ethylene vinyl acetate) (EVA) in both thermoplastic and thermoset form are also illustrated. Reference is also made to the phenomenon of significant resistivity variations with increasing temperature of carbon black-loaded plastics systems.

/Conductive c a r b o n b l a c k is t h e p r e f e r r e d filler f o r i m p a r t i n g a n t i - s t a t i c ^

a n d c o n d u c t i v e p r o p e r t i e s to p o l y m e r systems.

C o n d u c t i v e plastics

compounds containing carbon black are w i d e l y used i n the wire a n d c a b l e i n d u s t r y as m e t a l c o n d u c t o r s t r a n d a n d p r i m a r y i n s u l a t o r s h i e l d i n g i n h i g h v o l t a g e cables. S i m i l a r plastics c o m p o u n d s a r e u s e d t o p r o d u c e anti-static s h e e t i n g , b e l t i n g , hose, a n d m o l d e d goods w h i c h m i n i m i z e static b u i l d u p i n h a z a r d o u s e n v i r o n m e n t s s u c h as m i n e s a n d o t h e r areas w h e r e explosive v a p o r s m a y collect. T h i s p a p e r r e v i e w s b r i e f l y t h e reasons c a r b o n b l a c k is classified e l e c t r i c a l l y as a " s e m i - c o n d u c t i v e " m a t e r i a l a n d h o w these

conductive

p r o p e r t i e s a r e i m p a r t e d to p l a s t i c systems. P r i m a r i l y , h o w e v e r , w e i l l u s trate t h e effects of three c a r b o n b l a c k types at v a r i o u s concentrations o n 171 Deanin and Schott; Fillers and Reinforcements for Plastics Advances in Chemistry; American Chemical Society: Washington, DC, 1974.

172 the

FILLERS

AND

REINFORCEMENTS

electrical, physical, a n d rheological properties

acetate

copolymer,

in both

of

FOR

PLASTICS

ethylene—vinyl

t h e r m o p l a s t i c a n d thermoset

(chemically

crosslinked ) form. Carbon Black Properties Which Affect

Conductivity

F i g u r e 1 shows the r e l a t i o n s h i p b e t w e e n the c o n d u c t i v i t y of c a r b o n b l a c k , p u r e p o l y m e r s , c a r b o n b l a c k - f i l l e d p o l y m e r s , a n d metals.

Semi-

c o n d u c t i v e m a t e r i a l s , as o p p o s e d to metals, e x h i b i t a n e g a t i v e t e m p e r a t u r e coefficient of resistance, s h o w i n g a n increase i n c o n d u c t i v i t y w i t h

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increasing temperature.

F u r n a c e b l a c k s , s u c h as the grades

here, h a v e v e r y s m a l l n e g a t i v e t e m p e r a t u r e coefficients

discussed

a n d thus v a r y

only slightly i n d r y resistivity w i t h temperature variation. Log Volume Resistivity, ohm—cm

£

=

2

Figure 1. Volume resistivity of polymer pounds and reference materials T h e s e c a r b o n b l a c k s of l o w v o l a t i l e content

com-

(chemisorbed

c o m p l e x e s ) e x h i b i t d r y resistivities i n the r a n g e of 0.2 to 1.0 m e a s u r e d at a b u l k d e n s i t y of