IDP Technology company

ESD CONDUCTING AGENT


	TECHNICAL DATA SHEET, IDP-STAT PP COMPOUNDS IDR-1000 TECHNICAL DATA SHEET, IDP-STAT PS COMPOUNDS IDR-2000 TECHNICAL DATA SHEET, IDP-STAT PC/ABS COMPOUNDS IDR-4000

TECHNICAL DATA SHEET, IDP-STAT PP COMPOUNDS IDR-1000

INTRODUCTION

The IDP-STAT PP Compounds (IDR-1000) are statically dissipative thermoplastic sheets based on Inherently Dissipative Polymers (IDP) technology. This class of materials have distinctive advantages in hot spots and cleanliness requirements in comparison to other materials based on Hygroscopic Antistats, Inherently Conductive Polymers (ICP) or Conductive Fillers such as carbon fibers and carbon blacks.
IDP-STAT Compounds exhibit superior property and processing characteristics compared with other competitive IDP based compounds.

MATERIAL PROPERTY

PROPERTIES	ASTM METHODS	ENGLISH UNIT	VALUES	SI UNIT	VALUES

PHYSICAL

SPECIFIC GRAVITY	D792	-	0.92	-	0.92
MOLD SHRINKAGE	D955	%	1.5-2.0	%	1.5-2.0

MECHANICAL

TENSILE STRENGTH	D638	psi	2,800	Mpa	20
FLEXURAL STRENGTH	D790	psi	2,800	Mpa	20
FLEXURAL MODULUS	D790	ksi	128	Mpa	880
NOTCHED IZOD IMPACT STRENGTH	D256	f.lbs/in	3.6	J/m	190

THERMAL

SURFACE RESISTIVITY D257	D257	℉	127	℃	53

ELECTRICAL

SURFACE RESISTIVITY D257	D257	10EΩ/sq	8-10	10EΩ/sq	8-10
STATIC DECAY TIME 5 KV to 50V	FTMS101C	sec.	<0.5	sec.	<0.5

The property values shown above are the typical average values from injection molded specimens which can be expected from manufacturing lots and are not intended for specific purposes.

TECHNICAL DATA SHEET, IDP-STAT PS COMPOUNDS IDR-2000

INTRODUCTION

The IDP-STAT PS Compounds (IDR-2000) are statically dissipative thermoplastic sheets based on Inherently Dissipative Polymers (IDP) technology. This class of materials have distinctive advantages in hot spots and cleanliness requirements in comparison to other materials based on Hygroscopic Antistats, Inherently Conductive Polymers (ICP) or Conductive Fillers such as carbon fibers and carbon blacks.
IDP-STAT Compounds exhibit superior property and processing characteristics compared with other competitive IDP based compounds.

MATERIAL PROPERTY

PROPERTIES	ASTM METHODS	ENGLISH UNIT	VALUES	SI UNIT	VALUES

PHYSICAL

SPECIFIC GRAVITY	D792	-	1.04	-	1.04
MOLD SHRINKAGE	D955	%	0.5-0.8	%	0.5-0.8

MECHANICAL

TENSILE STRENGTH	D638	psi	2,800	-	20
FLEXURAL STRENGTH	D790	psi	4,200	%	30
FLEXURAL MODULUS	D790	ksi	213	%	1,470
NOTCHED IZOD IMPACT STRENGTH	D256	f.lbs/in	2.4	%	130

THERMAL

SURFACE RESISTIVITY D257	D257	℉	163	℃	73

ELECTRICAL

SURFACE RESISTIVITY D257	D257	10EΩ/sq	8-10	10EΩ/sq	8-10
STATIC DECAY TIME 5 KV to 50V	FTMS101C	sec.	<0.5	sec.	<0.5

The property values shown above are the typical average values from injection molded specimens which can be expected from manufacturing lots and are not intended for specific purposes.

TECHNICAL DATA SHEET, IDP-STAT PC/ABS COMPOUNDS IDR-4000

INTRODUCTION

The IDP-STAT PC/ABS Compounds (IDR-4000) are statically dissipative thermoplastic sheets based on Inherently Dissipative Polymers (IDP) technology. This class of materials have distinctive advantages in hot spots and cleanliness requirements in comparison to other materials based on Hygroscopic Antistats, Inherently Conductive Polymers (ICP) or Conductive Fillers such as carbon fibers and carbon blacks.
IDP-STAT Compounds exhibit superior property and processing characteristics compared with other competitive IDP based compounds.

MATERIAL PROPERTY

PROPERTIES	ASTM METHODS	ENGLISH UNIT	VALUES	SI UNIT	VALUES

PHYSICAL

SPECIFIC GRAVITY	D792	-	1.35	-	1.35
MOLD SHRINKAGE	D955	%	0.3	%	0.3

MECHANICAL

TENSILE STRENGTH	D638	psi	5,800	-	40
FLEXURAL STRENGTH	D790	psi	6,500	%	45
FLEXURAL MODULUS	D790	ksi	625	%	4,300
NOTCHED IZOD IMPACT STRENGTH	D256	f.lbs/in	0.7	%	34

THERMAL

SURFACE RESISTIVITY D257	D257	℉	206	℃	97

ELECTRICAL

SURFACE RESISTIVITY D257	D257	10EΩ/sq	8-10	10EΩ/sq	8-10
STATIC DECAY TIME 5 KV to 50V	FTMS101C	sec.	<2	sec.	<2

The property values shown above are the typical average values from injection molded specimens which can be expected from manufacturing lots and are not intended for specific purposes.