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Electronic Materials DivisionVersion 01 / Sep. 2010
TECHNICAL NOTE
Electronic Materials Division Version 01 / Sep 2010
00
Proper Use of SUMIKASUPER LCP
The contents of this document have been compiled based on current documents, information, and data and may be revised when new information is available.
(1) HandlingThe following items refer to essential points when handling SUMIKASUPER LCP. Ensure that SUMIKASUPER LCP is handled safely. Carefully read the Material Safety Data Sheet regarding the handling of SUMIKASUPER LCP before use. Examine the safety of any additives for use with SUMIKASUPER LCP.
[1] Safety and Health Ensure that any gases emitted from drying or melting SUMIKASUPER LCP do not come in contact with the eyes or skin or are inhaled. In addition, be careful not to touch the resin while it is still hot. Local ventilation equipment must be installed and proper protective gear (such as protective goggles and protective gloves) must be worn while drying or melting this product.
[2] FlammabilitySUMIKASUPER LCP is a ame-resistant material (classied as UL94 V-0), however, it should be handled and stored in places well away from sources of heat and ame. If the material catches re, toxic gases may be released. Use water, foam, or chemical re extinguishers to extinguish any ames.
[3] Disposal SUMIKASUPER LCP may be disposed by burial or incineration. Burial of the material should be conducted by certied industrial waste processors or by the local municipal authorities in accordance with the "Waste Management and Public Cleansing Law". Incineration should be conducted using a furnace which complies with the laws and regulations of the Air Pollution Control Law. Toxic gases may be released when this product is incinerated.
[4] Storage Store SUMIKASUPER LCP at room temperature away from direct sunlight, water, and humidity.
(2) Applicable StandardsSUMIKASUPER LCP comes in a variety of grades which comply with standards specied by the American Underwriters Laboratories Inc., i.e. UL94 and UL746, and by the Electrical Appliance and Material Control Law, i.e. ball pressure temperature. Refer to this booklet or contact Sumitomo Chemical for further details. Contact Sumitomo Chemical for information regarding the use of this material in other special applications.
(3) Security Trade ControlThe products of SUMIKASUPER E5000 series, E4000 series, E6000 series, SZ4000 series and SZ6000 series are on the control list of the Foreign Exchange and Foreign Trade Control Act of Japan.The SUMIKASUPER E6000HF series and SZ6000HF series are not on the control list but implemented in catch-all control.
(4) OthersAll the data given in this document are for reference only and
are not intended as guarantees on product performance.Be aware of intellectual property rights when using this product.
1. General Chracteristics and Grade Line-up 1.1 Features 01 1.2 Grade Line-up 032. Physical Properties 2.1 General Physical Properties 04 2.2 Heat Resistance 06 2.3 Mechanical Properties 08 2.4 Flame Retardancy 11 2.5 Electrical Properties 11 2.6 Other Characteristics 123. Injection Molding / Fabricating 3.1 Moldability 14 3.2 Injection Molding Conditions 16 3.3 Design of Injection Molding Machine and Tools 19 3.4 Fabricating 244. Applications 4.1 Electronic Components 25
SUMIKASUPER LCP Technical Notes Index
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SKIN LAYER
SKIN LAYER
CORE LAYER
1.1 Features
Analyzer(polarization plate)
Specimen
Heating stage
Polarizer(polarization plate)
Light sourceOptical spectrum
Darkness in the case of isotronic material
Solid state Molten liquid crystalline state
Temperature (C)
Para-hydroxybenzonic acid Biphenol Phthalic acid
Amou
nt o
f lig
ht tr
ansm
issi
on
As indicated by their name, one property of liquid crystalline polymers is that they become liquid crystalline state when they enter a molten state. This special phenomenon, unique to liquid crystal polymers, can be observed under a polarizing microscope: as the temperature of a polymer increases and it begins to melt, its light transmittance also increases signifi-cantly.
SUMIKASUPER LCP is a thermotropic liquid crystalline polyester that possesses the highest heat resistance among all engineering plastics. Its basic chemical composition is shown in the diagram below. Thermotropic liquid crystalline polyester is one of the most common types of liquid crystalline polymer.
Figure 1.2 Transmission of Light through PolalizerFigure 1.1 Device for Observing the Melting of Liquid Crystals
1. General Characteristics and Grade Line-up
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Characteristics Based on Whollyaromatic Liquid Crystalline Polymer
High heat resistance (high DTUL, high heat aging resistance)Soldering heat resistanceFlame retardanceLow water absorbencyChemical resistance
Characteristics Based on Wholy Aromatic Compounds
Anisotropy (strength, shrinkage)Low weld strength
High strength and rigidityLow viscosity, high moldabilityLow shrinkage, low coefficient of linear expansion (flow direction)High-speed setting, with less flash production.
DisadvantagesAdvantages
Effects of Molecular Orientation
Crystalline polymerThermotoropic liquid crystalline polymer
Melting
Injectionmolding
Solidification
Figure 1.3 Polarization Microscopic Photograph
Figure 1.4 Characteristics of Liquid Crystalline Polymer (LCP)
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Anisotropy Low shrinkage
E5000 Series
E4000 Series
E6000 Series
E6000HF Series
E5008335C / 340C
E4008313C / 330C
E6008279C / 300C
E4006L310C / 335C
E6006L284C / 300C
E6007LHF269C / 300C
E6807LHF Z269C / 300C
E6808LHF Z274C / 300C
E6808UHF Z240C / 290C
E6810LHF Z266C / 280C
E5006L355C / 350C
E5008L339C / 340C
400C
380C
360C
350C
1.2 Grade Line-up
There are 4 types of SUMIKASUPER LCP product : E5000, E4000, E6000 and E6000HF series, in order of increasing heat resistance.Table 1.1 shows the special properties of each product series and grade and Figure 1.5 depicts the relationships between each of the different grades.
Brands and Special Features
Figure 1.5 Grade Line-up
Milled GF Series
Chopped GF Series
GF/InorganicFiller Series
Standard processingtemperature
Table 1.1 Characteristic and Grade Line-up
Note: Some of the above grades are custom manufactured products.
E5000series
E4000seriesE6000series
E6000HFseries
Filler
Glass fiber
Glass fiber
Glass fiber
Glass fiber
Glass fiberGlass fiberGlass fiberGlass fiberGlass fiber
Glass fiber / Inorganic fillerGlass fiber / Inorganic fillerGlass fiber / Inorganic fillerGlass fiber / Inorganic filler
Typical Grade
E5006L
E5008L
E5008
E5204L
E4008E4006LE6006LE6008E6007LHFE6807LHFE6808LHFE6808UHFE6810LHF
Features
Ultra high heat resistance / Low coefficient of thermal expansionUltra high heat resistance / Low coefficient of contraction Ultra high heat resistance / Low coefficient of linear expansionUltra high heat resistance / Low coefficient of thermal expansion / Low Dielectric constantHigh heat resistance / High strengthHigh heat resistance / Low shrinkage High intensityHigh strength / High moldabilityHigh moldability / Low warpageHigh moldability / Low warpageHigh moldability / Low warpageHigh moldability / Low warpageHigh moldability / Low warpage
DTUL(C)
355
339
335
351
313310284279269269274240266
400
380
350
350
List ControlledItems
List Controlled ItemsList Controlled Items
Not List ControlledItems
Hea
t res
ista
nce
High
Low Small
The temperatures under each grade indicate deflection under load and solder resistance (1 minute dipping) respectively. For assistance in selecting the grade that is best for your application, please contact us.
Standard Molding
Temperature(C)
Transport Restrictions
(Classification)
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Item
Filler
Standard molding temperature
Specific gravity
Water absorption coefficient
Mold shrinkage
Tensile strength
Elongation at break
Flexural strength
Flexural modulus
Izod impactstrength
Shear strength
Poisson's ratio
Rockwell hardness
DTUL(1.82MPa)
Soldering resistance
Linear expansioncoefficient (150C)
Limiting oxygen index
Flame retardancy
Thermal conductivity
Dielectric constant
Dielectric tangent
Specific volume resistance
Arc resistance
Tracking resistance
MD
TD
23C
200C
23C
200C
6.4t notched
6.4t without notched
MD
TD
flame class
color
thickness
(103Hz)
(106Hz)
(109Hz)
(103Hz)
(106Hz)
(109Hz)
Test method
ASTM D792
ASTM D570
SumitomoChemicalmethod
ASTM D638
ASTM D790
ASTM D790
ASTM D256
ASTM D732
ASTM D785
ASTM D785
ASTM D648
Sumitomo Chemical method
SumitomoChemicalmethod
JIS K7201
UL94
JIS R2618
ASTM D150
ASTM D257
ASTM D495
IEC method
E5008LGlassfiber4001.690.020