Compound - Material - Spec

1.0 PURPOSE 目的

The purpose of this specification is to define the storage, handling and usage method epoxy molding compound include mold-cleaning material.

这份规范的目的是确定塑封料的存储、搬运和使用方法，包括模具清洁材料。

2.0 SCOPE 范围

This specification applies to the storage and usage of all epoxy molding compound and cleaning compound using in XXX.

这份规范适用于在 XXX使用的所有的环氧塑封料的保存和使用 If customer requests, applies to the customer specification。 如果客户有要求，则遵循客户规范

3.0 RESPONSIBILITY 职责

3.1 Production department will be responsible for output and part of quality control. 生产部负责生产及部份的质量控制。

3.2 Maintenance department will be responsible for machine setup, maintenance and technical support. 设备维护部负责设备技术规范及技术支持。 3.3 Engineering department shall be responsible for process control and continuous improvement. 技术部负责工艺控制及持续改进工作。 3.4 QA department will be responsible for in-process control and monitoring. 质量部负责生产监控。

3.5 IQA department will be responsible for the incoming quality control and monitoring. 来料检验部门负责来料的质量检查和监控。

4.0 REFERENCE DOCUMENTS 参考文献

4.1 CS720-0009 XXX LDP Molding Handling Procedure 4.2 CS720-0022 XXX LDP Molding Reject Criteria 4.3 LDP-309-MD-E001 Mold Cleaning

4.4 XXX-313-GEN-E001 Expired Materials Re-qualification

4.5 XXX-310-IQA-Q005 MOLD COMPOUNG Incoming Inspection Procedure

5.0 EQUIPMENT & MATERIAL 设备和材料

5.1 Mold Press with Mold Die 塑封机器 5.2 Auto Mold 自动模

5.3 GEL Time Tester 凝胶化时间测度仪 5.4 Spiral Flow Tester 流动性测试仪 5.5 Balance/Scale 天平盘/秤

5.6 Temperature/Humidity Indicator 温度/湿度指示器 5.7 Smock 防尘服 5.8 Gloves and Smack 手套及口罩 5.10 Thermometer 温度计 5.11 Microscope 显微镜

6.0 CALIBRATION 校准

Calibration shall be done according to CS762-0001 (Calibration procedure specification) and PI-032 (Calibration Manual).

所有设备应按CS762-0001（校准程序）及PI-032（校正手册）进行校准。

7.0 RECORDS & FORMS 记录和表格

7.1 Compound Flow Record PD0-00042 塑封料流程卡 7.2 Compound Control Log Sheet PD0-00043 塑封料控制记录表 7.3 XXX EMC Restore Control Record PB1-00011 塑封料返回控制记录表

8.0 SAFETY 安全

8.1 Always wear gloves and mask when handling the compound 在操作塑封料时戴好手套和面罩。 8.2 Be careful not to touch the compound with naked skin 小心不要用裸露的皮肤接触塑封料

9.0 DEFINITION 定义

9.1 Thawing Time: the time duration between the compound had been taken out of cold chamber to the compound can be used for production.

解冻时间：指塑封料从冷库时出来后到可以正常使用之间的这段时间。 9.2 Shelf Life: the compound's normal maximum keeping duration, which can keep guaranteed quality. 储存时限或保质期。 9.3 TBD: To be define. IQA need not confirm these items. TBD：待定，IQA不必检查这些项目。

10.0 PROCEDURES 程序

10.1 Compound storage and handling

塑封料保存和操作

10.1.1 Molding compound should be shipped and stored at temperature of 5℃ or below.

塑封料要在5℃或更低的温度下进行装运和保存。

10.1.2 After the compound had been withdrawn from the cold store, it should be taken to the proper thawing within 1-hour for thawing. The thawing condition is room temperature (20-26℃) and humidity 40%~60%. Compound must be sealed while thawing in order to prevent moisture contamination.

塑封料从冷库中拿出来后，要放在合适的环境条件下解冻，解冻条件是：温度室温(20-26℃)、湿度40~60%。必须密封好以防水气进入塑封料。

For partial issue compound, it needs two bags to seal the compound and a knot must pack the bags. And, store keeper needs paste another sticker to show the compound type/size, lot No, expired date.

如果领取出的是散装的塑封料，则需要用两个袋子来包装并且袋子要打结扎紧。而且，要在袋子上贴上一个标贴写上塑封料的型号、尺寸、生产批号及保值期。

10.1.3 If it is found that the packing sealing had been opened or broken while taking compound from the cold store, these

compound should not be taken out for mass production. Sealing the compound at once and take some sample for engineering evaluation.

从冷库中取出塑封料时，如果发现密封装置已经被打开，则这些已经开封的料暂时不要用于生产取出一些样品交由技术部门测试并马上密封好。

For the engineering evaluation test procedure please refer to 10.4. 具体测试过程，请参见10.4。 10.1.4 During transferring compound from cold chamber to mold line thawing room, store personnel and M/H should be

careful to prevent moisture contaminating and thermal shock. The compound cannot be taken to the outside area of the building without enough protection.

塑封料从冷库转移到车间里的解冻室过程中，注意不要让潮气、热气、雨水及雪接触塑封料。在没有足够的防护措施时，塑封料不可以拿到室外。

For the protection condition, please see 10.1.1 and 10.1.2.

关于防护措施所需要满足的条件，请参见10.1.1和10.1.2。 10.1.5 Compound must be taken to thawing room within one hour after taken out from cold room.

从冷库中取出塑封料后，必须在一个小时内搬运到解冻区域进行回温。

10.1.6 Commonly, the compound can be used for production after 24 hours thawing time. It should be used up within 72

hours after 24 hours thawing time. That is, the compound's life time is 72-hour.

从冷库中取出的塑封料只能在24小时解冻（回温）后到出库96小时内用于生产。这就是说，塑 封料的正常使用寿命为72小时。

10.1.7 M/H should follow the FIFO rule when he/she take the mold compound from cold store. M/H and operator also

should follow FIFO rule when she/he moves the mold compound for mass production from compound shelf.

仓库搬运人应遵从先进先出原则从冷库中取出塑封料。封装工序的操作员及M/H也要遵从先进先出原则从料架上中取出及使用塑封料。

10.1.8 If compound cannot be used up within 72 life time the compound can be restored before the life time expired.

如果塑封料无法在正常寿命期内用完，则必须在72小时的寿命期内返回冷库。

For the control procedure of restore compound please refer to 10.3. 返回塑封料的控制程序请参见10.3。

10.1.9 Specially, for compound KMC184-8, EME-6710S and EME-6730B, the floor life after thawing for 24hrs is 48hrs.

No restore is allowed.

KMC184-8、EME-6710S、EME-6730B在回温之后的使用时间为48小时，不允许返回冷库。

10.1.10 Every drum of molding compound taken out from the cold store must be clearly recorded the control history on

the compound lot traveller card attached.

从冷库中取出的每桶或每箱塑封料必须清楚地在相关的批量记录卡上记下控制过程信息。 10.1.11 Always wear gloves and do not mix compound with different compound type.

在使用塑封料过程中一定要戴好手套，而且，不同种类的塑封料不能混用。

10.1.12 Before IQA paste the “COMPOUND FLOW RECORD”, IQA need confirm the compound has passed incoming

check. For the partial issue compound, IQA need stamp on the sticker(refer to 10.1.2).

IQA在贴“COMPOUND FLOW RECORD”之前需要确认塑封料已经过了来料检查。如果是零散领取的塑封料，则需要在贴纸上盖上标记。

10.2 Molding compound shelf life

塑封料储存期限

10.2.1 Commonly, the molding compound's shelf life shall be the same span which is guaranteed by vendor if there is not

any special definition.

通常，在没有特殊规定的情况下，塑封料的存储期限与供应商所给定的保质期限相同。

The shelf life of each compound refers to 11.0 technical specification. 各种塑封料的存储期限在11.0中具体规定。

10.2.2 If the compound shelf life is less than 1/2 of the total shelf when the material reaches XXX, supplier cannot ship

the material to XXX.

如果塑封料在到达XXX储存寿命已经少于总寿命期限的一半，则供应商不得将材料运往XXX。 10.2.3 If the shelf life duration is exceeded, engineering evaluation should be performed.

如果塑封料的储存时间超过了储存时限，必须进行测试。

For the engineering evaluation test procedure please refer to 10.4. 具体测试过程，请参见10.4。

10.2.4 If the expired compound can pass the engineering evaluation, the shelf life can be prolonged another 3-month from

the expiration date.

如果超过储存期限的塑封料能够通过测试评估，则这些通过测试的塑封料的存储期限可以从过期之日起延长三个月。

However, the shelf life just can be prolonged twice even the compound can pass the engineering evaluation again and again.

即便那些过期的塑封料可以通过多次测试，但是它的存储期限也最多可以延长两次。 10.2.5 If the abnormally unsealed compound can pass the engineering evaluation test, the shelf life will be the same

duration that the same type/lot of normally sealed compound has, or else abiding by 10.2.1, 10.1.2, 10.4.

对于因非正常开封而需要进行测试的塑封料，如果能够通过测试评估，则这些通过测试的塑封料的存储期限与同一批或同一型号的塑封料的正常存储期限相同，或者，按照10.2.1、10.2.2、10.4处理。

10.2.6 For the mold cleaning material, if the vendor has shelf life reference, the shelf life will be the same as the vendor

reference. If the vendor and the customer both have no special request, the storage shelf life will be 2-year from the MFG date. The storage condition request is same as product compound.

对于清模料，如果供应商有储存期限的推荐值，其储存期限与供应商推荐的储存期限相同。如果供应商与客户都没有特殊要求，则该清模材料的储存期限为两年。储存条件就和生产用的塑封料相同。

When the material is expired, the cleaning material has one time re-qualification procedure. After re-qualification, the shelf can be prolonged for 6-months. Please refer to 10.4 applied mold compound re-qualification procedure. 过期之后，清模用的材料可以按10.4的重新认可程序确认一次，通过确认并合格的可以延期六个月。 10.2.7 The mold cleaning material can be stored in room temperature for 3-month during the normal using. However,

there is no restore for cleaning material.

清模料可以在生产线上正常使用三个月，不可以重新入库。

Note: The release (wax) compound must abide by the control rules of the production compound and it also can be restored. It shall not use this item.

注意：润模所使用的塑封料必须按生产用的塑封料那样管理， 可以返回冷库，不适用本条款。

10.3 Control procedure of restore compound

返回塑封料的控制程序

10.3.1 The restore compound must be sealed. All of the opened bag should be tighten and a knot must pack the bags. The

restore date and time should be record on the \

在向冷库返回塑封料时所有的塑封料必须密封好，所有已经打开的袋子必须重新打结、扎紧。返回的塑封料必须在外箱或桶上的“COMPOUND FLOW RECORD”上记录下返回的日期和时间。

If the compound is kept in bag without pail, production shall use a sticker to write down the compound type/size, lot No., expiration date.

如果塑封料是储存在没有外箱的袋子中，则需要写下塑封料的型号、生产批号、过期时间。 10.3.2 IQA confirm the compound is not expired, the restore time is recorded, the compound type/size and lot No is

correct recorded and the compound is sealed correctly.

IQA确认塑封料储存期限没有过期、生产部有记录返回时间、塑封料的型号及生产批号有正确记录、塑封料密封良好。

10.3.3 Storekeeper will be responsible for keeping the restore compound which passes IQA confirm.

仓库负责保管经过IQA确认的返回塑封料。 10.3.4 Production shall follow FIFO to use the restore compound.

生产部自行按FIFO使用返回塑封料。

10.3.5 After production take out the restore compound, IQA need confirm production already write down the correct

date/time on “COMPOUND FLOW RECORD”, the packing is good, the shelf life is not expired. After confirm, IQA will stamp on the “COMPOUND FLOW RECORD”.

生产部领出返回塑封料之后，IQA需要确认生产部已经写好了正确的出库及使用日期、塑封料的包装完好、塑封料仍然在保值储内。IQA确认以后，在“COMPOUND FLOW RECORD”上盖章。

10.3.6 The restored compound must be kept in the cold store at least 12 hours before reuse.

被返回冷库的塑封料在重新利用前在冷库里至少要存储（冷冻）12小时。 10.3.7 For the second time's using of the restored compound, it also should be thawed in room temperature for 24 hours

since the time that compound had been taken out from the cold store. Once been taken out those restore compound must be used up in 48 hours. There is no second time's restore.

被返回的塑封料在重复利用时，也必须先解冷（回温）24小时才能用于生产，而且，很重要的一点是，这些返回塑封料一旦再次出库，则必须在出库后的48小时内一次性使用完毕。对于那些不能在48小时内用掉的返回料只能废弃而不能再返回冷库。

10.3.8 If the shelf life of restored compound will be expired in next day or the compound is already expired while taking

the restore compound out, please hold it in cold store and take some sample for engineering evaluation.

在领取被返回的塑封料出冷库时，如果发现有些塑封料即将在第二天超过存储期限或已经超过存储期限，则这些塑封料必须留在冷库里等待测试结果，测试结果出来之前不得取出使用。

For the engineering evaluation test procedure please refer to 10.4. 具体测试过程，请参见10.4。 10.4 Engineering evaluation test procedure

塑封料的测试评估程序

For the evaluation test procedure, please refer to the document listed in 4.4. 塑封料的测试评估程序请参见 4.4 所列出的文件。 10.5 Incoming Check Procedure

来料检验程序

10.5.1 The general incoming inspection procedure please refer to the relevant incoming inspection procedure.

来料检验程序参照相关的来料检验程序。 10.5.2 For cleaning sheet like MC201T, pleas use ±5% to check the dimension and weight.

对于清洁模具用的白块如MC201T，检查时将公差放在5%。

10.5.3 If there is no any specification to define the tolerance about compound and clean compound, please use this range

to do IQA check.

如果遇到没有具体规定重量和尺寸的塑封料及清洁用的塑封料，检查时参考下表。

Pellet Diameter Φ14 Φ16 Φ18 Φ55

Type Pellet Weight <=5.0 g Auto mold compound Φ55 Compound 5~9 g >9 g All Weight Tolerance ±0.2 mm ±0.3 mm ±0.4 mm ±2.5 mm Diameter Tolerance ±0.3 mm ±0.3 mm ±0.3 mm ±0.5 mm 10.5.4 Specification for rubber sheet mold cleaning material 橡胶清模料规范

Product type Dimension Visual defects Bubble Reject?10mm Contamination Rubclean Elastowet 220±5 mm, 15±2 mm, 6±1 mm Reject>5% of total surface area Ink Cloth Fibre/Hair Oil Fish eye Reject?5mm Foreign material Reject?2mm

11.0 TECHNICAL SPECIFICATION 技术规范

Please refer to the page 11~41 to see the below compound specification: Note: 11.1~11.26, LDP compound. 11.27~11.31, BGA compound.

12.0 CORRECTIVE ACTION 修正措施

N/A 无要求

11.1 KTMC-1010H

ITEM Spiral Flow Gelation Time Hot Hardness Flash Inch sec. - mm(0.5mil) mm(1.0mil) mm(2.0mil) < Water Extract > Electrical Conductivity pH Na+ Cl- Flexural Strength Flexural Modulus Coefficient of Linear Thermal Expansion α1 Coefficient of Linear Thermal Expansion α2 Glass Transition Temperature Thermal Conductivity Flammability Dielectric Constant (1KHz) Dielectric Constant (1MHz) Dissipation Factor (1KHz) Dissipation Factor (1MHz) Volume Resistivity (100℃) Volume Resistivity(150℃) Specific Gravity Mold Shrinkage μS/cm - PPM PPM Kg/cm2 Kg/cm2 1/℃x10-6 1/℃x10-6 ℃ Cal/℃ x10-4 cm sec - - - x10-3 x10-4 Ωcm x1014 Ωcm x1013 - % UNIT SPEC. 29±5 27±4 Min 65 Max 1.5 Max 1.5 Max 1.5 Max 30. 4.0±1.0 Max 5.0 Max 5.0 13±2 1300±200 23±2 75±10 Min 150 17±5 V-0 Max 4.5 Max 4.1 Max 5.0 Max 10.0 Min 8.0 Min 3.0 1.81±0.05 Max 1.5 Min 1.55 KCCEMC-PTM-1009 KCCEMC-PTM-1009 KCCEMC-PTM-1009 KCCEMC-PTM-1009 KCCEMC-PTM-1010 KCCEMC-PTM-1010 KCCEMC-PTM-1014 KCCEMC-PTM-1014 KCCEMC-PTM-1014 KCCEMC-PTM-1012 UL-94 KCCEMC-PTM-1002 KCCEMC-PTM-1002 KCCEMC-PTM-1002 KCCEMC-PTM-1002 KCCEMC-PTM-1001 KCCEMC-PTM-1001 KCCEMC-PTM-1016 KCCEMC-PTM-1013 KCCEMC-PTM-1018 TEST CONDITION KCCEMC-PTM-1003 KCCEMC-PTM-1005 KCCEMC-PTM-1008 KCCEMC-PTM-1006 Pellet Density g/cm3 Shelf Life 6 months at 5℃ or below after date of manufacturing.

11.2 KTMC-1010HA

ITEM Spiral Flow Gelation Time Hot Hardness Flash Inch sec. - mm(0.5mil) mm(1.0mil) mm(2.0mil) < Water Extract > Electrical Conductivity pH Na+ Cl- Flexural Strength Flexural Modulus Coefficient of Linear Thermal Expansion α1 Coefficient of Linear Thermal Expansion α2 Glass Transition Temperature Thermal Conductivity Flammability Dielectric Constant (1MHz) Dissipation Factor (1MHz) Volume Resistivity (100℃) Volume Resistivity(150℃) Specific Gravity Mold Shrinkage Pellet Density μS/cm - PPM PPM Kg/cm2 UNIT SPEC. 27±5 21±4 Min 65 Max 1.5 Max 1.5 Max 3.0 Max 40 4.0±1.0 Max 5.0 Max 5.0 13±2 1300±200 23±2 75±10 Min 150 TEST CONDITION KCC-J-7-29-701 KCC-J-7-29-702 KCC-J-7-29-703 KCC-J-7-29-704 KCC-J-7-29-707 KCC-J-7-29-707 KCC-J-7-29-707 KCC-J-7-29-707 KCC-J-7-29-713 KCC-J-7-29-713 KCC-J-7-29-708 KCC-J-7-29-708 KCC-J-7-29-708 KCC-J-7-29-714 UL-94 KCC-J-7-29-712 KCC-J-7-29-712 KCC-J-7-29-712 KCC-J-7-29-712 KCC-J-7-29-717 KCC-J-7-29-715 KCC-J-7-29-711 Kg/cm2 1/℃x10-6 1/℃x10-6 ℃ 5 Cal/℃ cm sec x10-4 17±- - x10-3 Ωcm x1014 Ωcm x1013 - % g/cm3 V-0 Max 5.0 Max 10.0 Min 8.0 Min 3.0 1.81±0.05 Max 1.5 Min 1.65 Shelf Life 6 months at 5℃ or below after date of manufacturing.

11.3 KTMC-5100H

ITEM Spiral Flow Gelation Time Hot Hardness Flash Inch sec. - mm(0.5mil) mm(1.0mil) < Water Extract > Electrical Conductivity pH Na+ Cl- Flexural Strength Flexural Modulus Coefficient of Linear Thermal Expansion α1 Coefficient of Linear Thermal Expansion α2 Glass Transition Temperature Thermal Conductivity Flammability Dielectric Constant (1KHz) Dielectric Constant (1MHz) Dissipation Factor (1KHz) Dissipation Factor (1MHz) Volume Resistivity (100℃) Volume Resistivity(150℃) Specific Gravity Mold Shrinkage Silica type Angular type Particle Size (AVG) Particle Size (AVG) Viscosity mm(2.0mil) μS/cm - PPM PPM Kg/cm2 Kg/cm2 1/℃x10-6 1/℃x10-6 ℃ - - - x10-3 x10-4 Ωcm x1014 Ωcm x1013 - % % % § % poise UNIT SPEC. 35±5 30±4 Min 70 Max 1.5 Max 1.5 Max 1.5 Max 40. 4.0±1.0 Max 3.0 Max 3.0 13±2 1300±200 18±2 70±10 160±7 V-0 Max 4.0 Max 4.0 Max 5.5 Max 7.5 Min 5.0 Min 3.0 1.85±0.05 Max 1.5 75±10 25±10 14±2 Max 100 200±50 0.35max KCC-J-7-29-707 KCC-J-7-29-707 KCC-J-7-29-707 KCC-J-7-29-707 KCC-J-7-29-713 KCC-J-7-29-713 KCC-J-7-29-708 KCC-J-7-29-708 KCC-J-7-29-708 KCC-J-7-29-714 UL-94 KCC-J-7-29-712 KCC-J-7-29-712 KCC-J-7-29-712 KCC-J-7-29-712 KCC-J-7-29-710 KCC-J-7-29-710 KCC-J-7-29-717 KCC-J-7-29-716 - - KCC-J-7-29-766 KCC-J-7-29-726 KCC-J-7-29-709 KCC-J-7-29-716 TEST CONDITION KCC-J-7-29-701 KCC-J-7-29-702 KCC-J-7-29-703 KCC-J-7-29-704 5 Cal/℃ cm sec x10-4 20±Water absorption % Shelf Life 6 months at 5℃ or below after date of manufacturing.

11.4 KTMC-5510H

ITEM Spiral Flow Gelation Time Hot Hardness Flash Inch sec. - mm(0.5mil) mm(1.0mil) < Water Extract > Electrical Conductivity pH Na+ Cl- Flexural Strength Flexural Modulus Coefficient of Linear Thermal Expansion α1 Coefficient of Linear Thermal Expansion α2 Glass Transition Temperature Thermal Conductivity Flammability Dielectric Constant (1KHz) Dielectric Constant (1MHz) Dissipation Factor (1KHz) Dissipation Factor (1MHz) Volume Resistivity (100℃) Volume Resistivity(150℃) Specific Gravity Mold Shrinkage Pellet Density mm(2.0mil) μS/cm - PPM PPM Kg/cm2 Kg/cm2 1/℃x10-6 1/℃x10-6 ℃ UNIT SPEC. 30±5 25±5 Min 70 Max 3.0 Max 3.0 Max 4.0 N/A 4.0±1.0 Max 10 Max 50 Min 12 Max 2200 Max 19 Max 75 Min 155 KCCEMC-PTM-1009 KCCEMC-PTM-1009 KCCEMC-PTM-1009 KCCEMC-PTM-1009 KCCEMC-PTM-1010 KCCEMC-PTM-1010 KCCEMC-PTM-1014 KCCEMC-PTM-1014 KCCEMC-PTM-1014 KCCEMC-PTM-1012 UL-94 KCCEMC-PTM-1002 KCCEMC-PTM-1002 KCCEMC-PTM-1002 KCCEMC-PTM-1002 KCCEMC-PTM-1001 KCCEMC-PTM-1001 KCCEMC-PTM-1016 KCCEMC-PTM-1013 KCCEMC-PTM-1022 KCCEMC-PTM-1015 KCCEMC-PTM-1021 KCCEMC-PTM-1018 TEST CONDITION KCCEMC-PTM-1003 KCCEMC-PTM-1005 KCCEMC-PTM-1008 KCCEMC-PTM-1006 5 Cal/℃ cm sec x10-4 20±- - - x10-3 x10-3 Ωcm x1014 Ωcm x1013 - % wt% % Poise g/cm3 V-0 Max 4.5 Max 4.5 Max 7.5 Max 8.5 Min 10 Min 10 1.95±0.03 Max 0.5 83±2.0 Max 0.40 100±50 Min 1.65 Shelf Life 6 months at 5℃ or below after date of manufacturing.

11.5 KTMC-5800T

ITEM Spiral Flow Gelation Time Hot Hardness Flash Inch sec. - mm(0.5mil) mm(1.0mil) mm(2.0mil) < Water Extract > Electrical Conductivity pH Na+ Cl- Flexural Strength Flexural Modulus Coefficient of Linear Thermal Expansion α1 Coefficient of Linear Thermal Expansion α2 Glass Transition Temperature Thermal Conductivity Flammability Dielectric Constant (1KHz) Dielectric Constant (1MHz) Dissipation Factor (1KHz) Dissipation Factor (1MHz) Volume Resistivity (100℃) Volume Resistivity(150℃) Specific Gravity Mold Shrinkage Viscosity Water absorption μS/cm - PPM PPM Kg/cm2 Kg/cm2 1/℃x10-6 1/℃x10-6 ℃ N/A N/A N/A UNIT SPEC. 32±5 24±4 Min 70 Max 3.5 Max 3.5 Max 4.0 N/A TEST CONDITION KCC-J-7-29-701 KCC-J-7-29-702 KCC-J-7-29-703 KCC-J-7-29-704 KCC-J-7-29-705 KCC-J-7-29-706 KCC-J-7-29-707 KCC-J-7-29-707 KCC-J-7-29-707 KCC-J-7-29-707 KCC-J-7-29-713 KCC-J-7-29-713 KCC-J-7-29-708 KCC-J-7-29-708 KCC-J-7-29-708 KCC-J-7-29-714 UL-94 KCC-J-7-29-712 KCC-J-7-29-712 KCC-J-7-29-712 KCC-J-7-29-712 KCC-J-7-29-710 KCC-J-7-29-710 N/A N/A N/A Cal/℃ cm sec N/A x10-4 - V-0 - - x10-3 x10-3 Ωcm x1014 Ωcm x1013 - % wt% poise g/cm3N/A N/A N/A KCC-J-7-29-717 KCC-J-7-29-716 KCC-J-7-29-709 KCC-J-7-29-716 N/A Min 1.70 Shelf Life 6 months at 5℃ or below after date of manufacturing.

11.6 EME-5050RL

Pellet Size Φ14 4.4g Φ18 7.8g Φ55 78g Φ55 93g

ITEM Color Spiral Flow Gelation Time Shore D(Hot) Hardness Koka’s Flow Viscosity Coefficient of Linear Thermal Expansion α1 Coefficient of Linear Thermal Expansion α2 Glass Transition Temperature Specific Gravity Water Absorption Flexural Strength Flexural Modulus Thermal Conductivity Volume Resistivity (150℃) Volume Resistivity(after boiling 24 hrs) Dielectric Constant (1MHz) Dissipation Factor (1MHz) Flammability Ash content Extract Na+ Extract Cl- Conductivity of Water Extract - cm sec. - Pa.s poise 1/℃ 1/℃ ℃ - % N/mm2 (Kg/cm2) N/mm2 (Kg/cm2) W/m.℃ cm (Cal/cm.sec. ℃) Ωcm Ωcm - - - % ppm ppm μS/cm UNIT Black 85~125 25~39 Min 75 5.0~15.0 (50-150) 1.9x10-5 7.5x10-5 Min 130 1.85~1.93 0.3 max 137.3 min (14.0 min) 142.2~181.4x102 (1450~1850) N/A 1.0x1013 min N/A N/A N/A V-0 74.5~77.5 25 max 50 max 130 max SPEC. Test Method Visual SB-U-03-003 SB-U-03-005 SB-U-03-015 SB-U-03-006 SB-U-02-002 SB-U-02-002 SB-U-02-002 SB-U-03-018 SB-U-03-002 SB-U-01-001 SB-U-01-002 SB-U-02-004 SB-U-02-003 SB-U-02-003 SB-U-00-001 SB-U-00-001 SB-U-02-003 SB-U-02-010 SB-U-04-043 SB-U-04-043 SB-U-04-043 SB-U-04-043 Diameter 14.0 ±0.3 mm 18.0 ±0.3 mm 55.0 ±0.5 mm 55.0 ±0.5 mm Weight 4.4 ±0.2 g 7.8 ±0.4 g 78 ±2.5 g 93 ±2.5 g Test Method SB-U-08-002 SB-U-08-002 SB-U-08-002 SB-U-08-002 - pH of Water Extract 3.0~5.5 Shelf Life 12 months at 5℃ or below after date of manufacturing.

11.7 EME-6300H

Pellet Size Φ55 75g Φ55 90g Φ55 95g

ITEM Color Spiral Flow Gelation Time Shore D(Hot) Hardness Koka’s Flow Viscosity Coefficient of Linear Thermal Expansion α1 Coefficient of Linear Thermal Expansion α2 Glass Transition Temperature Specific Gravity Water Absorption Flexural Strength Flexural Modulus Thermal Conductivity Volume Resistivity (150℃) Volume Resistivity (after boiling 24 hrs) Dielectric Constant (1MHz) Dissipation Factor (1MHz) Flammability Ash content Extract Na+ Extract Cl- Hydrolysable Cl Conductivity of Water Extract - cm sec. - Pa.s poise 1/℃ 1/℃ ℃ - % N/mm2 (Kg/cm2) N/mm2 (Kg/cm2) W/m.℃ cm (Cal/cm.sec. ℃) Ωcm Ωcm - - - % ppm ppm - μS/cm UNIT Black 65~95 30~50 Min 70 N/A 1.9x10-5 7.5x10-5 Min 155 1.78~1.84 0.5 max 98.1 min (10.0 min) 98.1~156.9x102 (1000~1600) 58.6x10-2 (14x10-4) 1.0x1013 min 5.0x1014 min 4.7 Max 0.015 Max V-0 71~74 10 max 50 max 150 max N/A SPEC. Test Method Visual SB-U-03-003 SB-U-03-005 SB-U-03-015 SB-U-03-006 SB-U-02-002 SB-U-02-002 SB-U-02-002 SB-U-03-018 SB-U-03-002 SB-U-01-001 SB-U-01-002 SB-U-02-004 SB-U-02-003 SB-U-02-003 SB-U-00-001 SB-U-00-001 SB-U-02-003 SB-U-02-010 SB-U-04-043 SB-U-04-043 SB-U-04-043 SB-U-04-043 SB-U-04-043 Diameter 55.0 ±0.5 mm 55.0 ±0.5 mm 55.0 ±0.5 mm Weight 75 ±2.5 g 90 ±2.5 g 95 ±2.5 g Test Method SB-U-08-002 SB-U-08-002 SB-U-08-002 - pH of Water Extract N/A Shelf Life 12 months at 5℃ or below after date of manufacturing.

11.8 EME-6300HR

Pellet Size Φ14 3.9g Φ14 5.6g Φ18 7.1g Φ18 7.5g Φ18 9.5g

ITEM Color Spiral Flow Gelation Time Shore D(Hot) Hardness Koka’s Flow Viscosity Coefficient of Linear Thermal Expansion α1 Coefficient of Linear Thermal Expansion α2 Glass Transition Temperature Specific Gravity Water Absorption Flexural Strength Flexural Modulus Thermal Conductivity Volume Resistivity (150℃) Volume Resistivity (after boiling 24 hrs) Dielectric Constant (1MHz) Dissipation Factor (1MHz) Flammability Ash content Extract Na+ Extract Cl- Conductivity of Water Extract - cm sec. - Pa.s poise 1/℃ 1/℃ ℃ - % N/mm2 (Kg/cm2) N/mm2 (Kg/cm2) W/m.℃ cm (Cal/cm.sec. ℃) Ωcm Ωcm - - - % ppm ppm μS/cm UNIT Black 35~65 15~35 Min 70 N/A 1.9x10-5 7.5x10-5 Min 155 N/A N/A 98.1 min (10.0 min) 98.1~156.9x102 (1000~1600) N/A 1.0x1013 min 5.0x1014 min N/A N/A V-0 71~74 10 max 50 max N/A SPEC. Test Method Visual SB-U-03-003 SB-U-03-005 SB-U-03-015 SB-U-03-006 SB-U-02-002 SB-U-02-002 SB-U-02-002 SB-U-03-018 SB-U-03-002 SB-U-01-001 SB-U-01-002 SB-U-02-004 SB-U-02-003 SB-U-02-003 SB-U-00-001 SB-U-00-001 SB-U-02-003 SB-U-02-010 SB-U-04-043 SB-U-04-043 SB-U-04-043 SB-U-04-043 Diameter 14.0 ±0.3 mm 14.0 ±0.3 mm 18.0 ±0.3 mm 18.0 ±0.5 mm 18.0 ±0.5 mm Weight 3.9 ±0.2 g 5.6 ±0.2 g 7.1 ±0.3 g 7.5 ±0.3 g 9.5 ±0.4 g Test Method SB-U-08-002 SB-U-08-002 SB-U-08-002 SB-U-08-002 SB-U-08-002 - pH of Water Extract N/A Shelf Life 12 months at 5℃ or below after date of manufacturing.

11.9 EME-6600CR

Pellet Size Φ14 4.5g Φ14 6.0g Φ18 8.1g Φ18 10g

ITEM Color Spiral Flow Gelation Time Shore D(Hot) Hardness Koka’s Flow Viscosity Acetone Insoluble Matter Coefficient of Linear Thermal Expansion α1 Coefficient of Linear Thermal Expansion α2 Glass Transition Temperature Specific Gravity Water Absorption Flexural Strength Flexural Modulus Thermal Conductivity Volume Resistivity (150℃) Volume Resistivity (after boiling 24 hrs) Flammability Ash content Extract Na+ Extract Cl- Extracted Br- Conductivity of Water Extract - cm sec. - Pa.s poise % 1/℃ 1/℃ ℃ - % N/mm2 (Kg/cm2) N/mm2 (Kg/cm2) W/m.℃ cm (Cal/cm.sec. ℃) Ωcm Ωcm - % ppm ppm ppm μS/cm UNIT Black 55~95 20~50 Min 65 N/A 0.010 Max 1.7x10-5 7.0x10-5 Min 130 1.92~2.00 0.35 max 147.1 min (15.0 min) Diameter 14.0 ±0.3 mm 14.0 ±0.3 mm 18.0 ±0.3 mm 18.0 ±0.3 mm Weight 4.5 ±0.2 g 6.0 ±0.2 g 8.1 ±0.3 g 10 ±0.4 g SPEC. Test Method SB-U-08-002 SB-U-08-002 SB-U-08-002 SB-U-08-002 Test Method Visual SB-U-03-003 SB-U-03-005 SB-U-03-015 SB-U-03-006 SB-U-03-011 SB-U-02-002 SB-U-02-002 SB-U-02-002 SB-U-03-018 SB-U-03-002 SB-U-01-001 SB-U-01-002 SB-U-02-004 SB-U-02-003 SB-U-02-003 SB-U-02-003 SB-U-02-010 SB-U-04-043 SB-U-04-043 SB-U-04-043 SB-U-04-043 SB-U-04-043 2500 Max N/A 1.0x1012 min N/A V-0 79~82 5.0 max 50 max 50 max 150 max - pH of Water Extract 3.0~6.0 Shelf Life 12 months at 5℃ or below after date of manufacturing.

11.10 EME-6600CS

Pellet Size Φ55 80g Φ55 100g

ITEM UNIT SPEC. Diameter 55.0 ±0.5 mm 55.0 ±0.5 mm Weight 80 ±2.5 g 100 ±2.5 g Test Method SB-U-08-002 SB-U-08-002 Test Method Color Spiral Flow Gelation Time Shore D(Hot) Hardness Koka’s Flow Viscosity Acetone Insoluble Matter Coefficient of Linear Thermal Expansion α1 Coefficient of Linear Thermal Expansion α2 Glass Transition Temperature Specific Gravity Water Absorption Flexural Strength Flexural Modulus Thermal Conductivity Volume Resistivity (150℃) Volume Resistivity (after boiling 24 hrs) Flammability Ash content Extract Na+ Extract Cl- Extracted Br- Conductivity of Water Extract - cm sec. - Pa.s poise % 1/℃ 1/℃ ℃ - % N/mm2 (Kg/cm2) N/mm2 (Kg/cm2) W/m.℃ cm (Cal/cm.sec. ℃) Ωcm Ωcm - % ppm ppm ppm μS/cm Black 70~100 20~50 Min 65 N/A 0.010 Max 1.7x10-5 7.0x10-5 Min 130 1.92~2.00 0.35 max 147.1 min (15.0 min) 147.1~245.2 x 102 1500~2500 N/A 1.0x1012 min N/A V-0 79~82 5max 50 max 50 max 150 max Visual SB-U-03-003 SB-U-03-005 SB-U-03-015 SB-U-03-006 SB-U-03-011 SB-U-02-002 SB-U-02-002 SB-U-02-002 SB-U-03-018 SB-U-03-002 SB-U-01-001 SB-U-01-002 SB-U-02-004 SB-U-02-003 SB-U-02-003 SB-U-02-003 SB-U-02-010 SB-U-04-043 SB-U-04-043 SB-U-04-043 SB-U-04-043 SB-U-04-043 - pH of Water Extract 3.0~6.0 Shelf Life 12 months at 5℃ or below after date of manufacturing.

11.11 EME-6600H

ITEM Color Spiral Flow Gelation Time Shore D(Hot) Hardness Koka’s Flow Viscosity Acetone Insoluble Matter Coefficient of Linear Thermal Expansion α1 Coefficient of Linear Thermal Expansion α2 Glass Transition Temperature Specific Gravity Water Absorption Flexural Strength Flexural Modulus Thermal Conductivity Volume Resistivity (150℃) Volume Resistivity (after boiling 24 hrs) Flammability Ash content Extract Na+ Extract Cl- Extracted Br- Conductivity of Water Extract - cm sec. - Pa.s poise % 1/℃ 1/℃ ℃ - % N/mm2 (Kg/cm2) N/mm2 (Kg/cm2) W/m.℃ cm (Cal/cm.sec. ℃) Ωcm Ωcm - % ppm ppm ppm μS/cm UNIT Black 70~110 25~45 Min 65 N/A N/A 1.3x10-5 5.0x10-5 Min 130 1.98~2.04 0.30 max 98.1 min (10.0 min) 313.8x102 Max (3200 Max) N/A 1.0x1011 min 5.0 x1014 V-0 85~89 10 max 50 max N/A N/A SPEC. Test Method Visual SB-U-03-003 SB-U-03-005 SB-U-03-015 SB-U-03-006 SB-U-03-011 SB-U-02-002 SB-U-02-002 SB-U-02-002 SB-U-03-018 SB-U-03-002 SB-U-01-001 SB-U-01-002 SB-U-02-004 SB-U-02-003 SB-U-02-003 SB-U-02-003 SB-U-02-010 SB-U-04-043 SB-U-04-043 SB-U-04-043 SB-U-04-043 SB-U-04-043 - pH of Water Extract N/A Shelf Life 12 months at 5℃ or below after date of manufacturing.

11.12 EME-6600HR

ITEM Color Spiral Flow Gelation Time Shore D(Hot) Hardness Koka’s Flow Viscosity Coefficient of Linear Thermal Expansion α1 Coefficient of Linear Thermal Expansion α2 Glass Transition Temperature Specific Gravity Water Absorption Flexural Strength Flexural Modulus Thermal Conductivity Volume Resistivity (150℃) Volume Resistivity (after boiling 24 hrs) Flammability Ash content Extract Na+ Extract Cl- Extracted Br- Conductivity of Water Extract - cm sec. - Pa.s poise 1/℃ 1/℃ ℃ - % N/mm2 (Kg/cm2) N/mm2 (Kg/cm2) W/m.℃ cm (Cal/cm.sec. ℃) Ωcm Ωcm - % ppm ppm ppm μS/cm UNIT Black 60~100 20~40 Min 65 N/A 1.3x10-5 5.0x10-5 Min 130 1.98~2.04 0.50 max 98.1 min (10.0 min) 313.8x102 Max (3200 Max) N/A 1.0x1012 min N/A V-0 85~89 10 max 50 max N/A N/A SPEC. Test Method Visual SB-U-03-003 SB-U-03-005 SB-U-03-015 SB-U-03-006 SB-U-02-002 SB-U-02-002 SB-U-02-002 SB-U-03-018 SB-U-03-002 SB-U-01-001 SB-U-01-002 SB-U-02-004 SB-U-02-003 SB-U-02-003 SB-U-02-003 SB-U-02-010 SB-U-04-043 SB-U-04-043 SB-U-04-043 SB-U-04-043 SB-U-04-043 - pH of Water Extract N/A Shelf Life 12 months at 5℃ or below after date of manufacturing.

11.13 EME-6710S

ITEM Color Spiral Flow Gelation Time Shore D(Hot) Hardness Koka’s Flow Viscosity Coefficient of Linear Thermal Expansion α1 Coefficient of Linear Thermal Expansion α2 Glass Transition Temperature Specific Gravity Water Absorption Flexural Strength Flexural Modulus - cm sec. - Pa.s poise 1/℃ 1/℃ ℃ - % N/mm2 (Kg/cm2) N/mm2 (Kg/cm2) W/m.℃ cm (Cal/cm.sec. ℃) Ωcm Ωcm - % ppm ppm ppm μS/cm UNIT Black 60~90 25~45 Min 70 N/A Max 1.8x10-5 Max 8.0x10-5 Min 160 1.82~1.88 0.50 max 98.1 min (10.0 min) 98.1~156.9x102 Max (1000~1600) 0.586 min 14x10-4 1.0x1012 min N/A V-0 75~77 10 max 20 max 50 max 150 max SPEC. Test Method Visual SB-U-03-003 SB-U-03-005 SB-U-03-015 SB-U-03-006 SB-U-02-002 SB-U-02-002 SB-U-02-002 SB-U-03-018 SB-U-03-002 SB-U-01-001 SB-U-01-002 SB-U-02-004 SB-U-02-003 SB-U-02-003 SB-U-02-003 SB-U-02-010 SB-U-04-043 SB-U-04-043 SB-U-04-043 SB-U-04-043 SB-U-04-043 Thermal Conductivity Volume Resistivity (150℃) Volume Resistivity (after boiling 24 hrs) Flammability Ash content Extract Na+ Extract Cl- Extracted Br- Conductivity of Water Extract - pH of Water Extract 3.0~6.0 Shelf Life 12 months at 5℃ or below after date of manufacturing.

11.14 EME-6730B

Pellet Size Φ14 4.0g Φ14 4.5g

ITEM Color Spiral Flow Gelation Time Shore D(Hot) Hardness Koka’s Flow Viscosity Coefficient of Linear Thermal Expansion α1 Coefficient of Linear Thermal Expansion α2 Glass Transition Temperature Specific Gravity Water Absorption Flexural Strength Flexural Modulus Thermal Conductivity Volume Resistivity (150℃) Volume Resistivity (after boiling 24 hrs) Flammability Ash content Extract Na+ Extract Cl- Extracted Br- Conductivity of Water Extract - cm sec. - Pa.s poise 1/℃ 1/℃ ℃ - % N/mm2 (Kg/cm2) N/mm2 (Kg/cm2) W/m.℃ cm (Cal/cm.sec. ℃) Ωcm Ωcm - % ppm ppm ppm μS/cm UNIT Black 80~135 25~40 Min 70 N/A 1.5x10-5 6.0x10-5 Min 130 1.89~1.95 0.30 max 98.1 min (10.0 min) 167.7x102 Max (1710 Max) N/A 1.0x1011 min N/A V-0 79~83 10 max 20 max 50 max 150 max SPEC. Test Method Visual SB-U-03-003 SB-U-03-005 SB-U-03-015 SB-U-03-006 SB-U-02-002 SB-U-02-002 SB-U-02-002 SB-U-03-018 SB-U-03-002 SB-U-01-001 SB-U-01-002 SB-U-02-004 SB-U-02-003 SB-U-02-003 SB-U-02-003 SB-U-02-010 SB-U-04-043 SB-U-04-043 SB-U-04-043 SB-U-04-043 SB-U-04-043 Diameter 14.0 ±0.3 mm 14.0 ±0.3 mm Weight 4.0 ±0.2 g 4.5 ±0.2 g Test Method SB-U-08-002 SB-U-08-002 - pH of Water Extract 3.0~6.0 Shelf Life 12 months at 5℃ or below after date of manufacturing.

11.15 EME-7320CR

Pellet Size Φ14 4.4g

ITEM Color Spiral Flow Gelation Time Shore D(Hot) Hardness Koka’s Flow Viscosity Coefficient of Linear Thermal Expansion α1 Coefficient of Linear Thermal Expansion α2 Glass Transition Temperature Specific Gravity Water Absorption Flexural Strength Flexural Modulus Thermal Conductivity Volume Resistivity (150℃) Volume Resistivity (after boiling 24 hrs) Flammability Ash content Extract Na+ Extract Cl- Conductivity of Water Extract - cm sec. - Pa.s poise 1/℃ 1/℃ ℃ - % N/mm2 (Kg/cm2) N/mm2 (Kg/cm2) W/m.℃ cm (Cal/cm.sec. ℃) Ωcm Ωcm - % ppm ppm μS/cm UNIT Black 110~150 20~35 Min 65 N/A 1.6x10-5 6.5x10-5 Min 125 1.88~1.94 0.35 max 98.1 min (10.0 min) 205.9x102 Max (2100 Max) N/A 1.0x1011 min N/A V-0 79.2~82.2 5.0 max 30 max N/A SPEC. Test Method Visual SB-U-03-003 SB-U-03-005 SB-U-03-015 SB-U-03-006 SB-U-02-002 SB-U-02-002 SB-U-02-002 SB-U-03-018 SB-U-03-002 SB-U-01-001 SB-U-01-002 SB-U-02-004 SB-U-02-003 SB-U-02-003 SB-U-02-003 SB-U-02-010 SB-U-04-043 SB-U-04-043 SB-U-04-043 SB-U-04-043 Diameter 14.0 ±0.3 mm Weight 4.4 ±0.2 g Test Method SB-U-08-002 - pH of Water Extract N/A Shelf Life 12 months at 5℃ or below after date of manufacturing.

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