Ablebond 2035SC CMOS芯片胶 黏 度： 10.5 PaS 剪切强度： 26.4 Mpa 工作时间

： - min 工作温度： 270 ℃ 保 质 期： 12 个月 固化条件： 90秒 at 110C60秒

at 120C 主要应用： 摄像模组 包 装： 14g/支 　 图片及文字介绍仅供参考，请

以实物为准 特性 Emerson&cuming Ablebond 2035SC 是一款单组分,低温快速固化

的管芯胶，专门为高速生产工艺的粘接而开发。独特的特性：低弹性模量，粘接不

同的膨胀系数材料时减少变形。另一重要一点是它可以快速固化，在低到110oC也可

以快速固化。应用： CMOS、智能卡、光电模块等有成熟的应用。

PRODUCT DESCRIPTION
ABLEBOND 2035SC provides the following product
characteristics:
Technology Proprietary Hybrid Chemistry
Appearance Red
Cure Heat cure
Product Benefits ? Non-conductive
? Single component
? Fast cure
? Low cure temperature
? Low stress
Application Die attach
pH 3.7
Filler Type Silica
ABLEBOND 2035SC nonconductive die attach adhesive has
been formulated for use in high throughput die attach
applications. This material is designed to minimize stress and
resulting warpage between dissimilar surfaces.
TYPICAL PROPERTIES OF UNCURED MATERIAL
Thixotropic Index (0.5/5 rpm) 4.2
Viscosity, Brookfield CP51, 25 °C, mPa·s (cP):
Speed 5 rpm 11,000
Work Life @ 25°C, hours 24
Shelf Life @ -40°C (from date of manufacture), year 1
TYPICAL CURING PERFORMANCE
Cure Schedule
90 seconds @ 110°C
Alternative Cure Schedule
60 seconds @ 120°C or 10 seconds @ 150°C
The above cure profiles are guideline recommendations. Cure
conditions (time and temperature) may vary based on customers\'
experience and their application requirements, as well as customer
curing equipment, oven loading and actual oven temperatures.
TYPICAL PROPERTIES OF CURED MATERIAL
Physical Properties:
Coefficient of Thermal Expansion :
Below Tg, ppm/°C 54
Above Tg, ppm/°C 128
Glass Transition Temperature (Tg) by TMA, °C 120
Thermal Conductivity, W/mK 0.35
Tensile Modulus, DMTA :
@ -65 °C N/mm2 3,700
(psi) (540,000)
@ 25 °C N/mm2 2,500
(psi) (360,000)
@ 150 °C N/mm2 70
(psi) (11,000)
@ 250 °C N/mm2 68
(psi) (10,000)
Extractable Ionic Content, ppm:
Chloride (Cl-) <30
Sodium (Na+) <50
Potassium (K+) <20
Water Extract Conductivity, μmhos/cm 75
Weight Loss @ 300oC, % 2.51
TYPICAL PERFORMANCE OF CURED MATERIAL
Die Shear Strength:
2 X 2 mm die, kg-f,
Die on Substrate: @25°C
Au die on Au PBGA 11
Si die on Ag leadframe 13
Si die on Pd leadframe 12
Si die on PBGA-FR4 12
Die Shear Strength vs Temperature, kg-f:
3 X 3 mm Si die, kg-f,
Substrate @25°C @150°C @200°C
PBGA-FR4 25 7.0 4.0
Chip Warpage vs Chip Size:
0.38 mm thick Si die on Diff substrates @ 25°C, μm
Chip Size: Warpage:
12.7 x 12.7 mm 34
GENERAL INFORMATION
For safe handling information on this product, consult the
Material Safety Data Sheet, (MSDS).
THAWING:
1. Allow container to reach room temperature before use.
2. After removing from the freezer, set the syringes to stand
vertically while thawing.
3. DO NOT open the container before contents reach 25°C
temperature. Any moisture that collects on the thawed
container should be removed prior to opening the
container.
TDS ABLEBOND 2035SC, July-2010
4. DO NOT re-freeze. Once thawed to -40°C, the adhesive
should not be re-frozen.
DIRECTIONS FOR USE
1. Thawed adhesive should be immediately placed on
dispense equipment for use.
2. If the adhesive is transferred to a final dispensing
reservoir, care must be exercised to avoid entrapment of
contaminants and/or air into the adhesive.
3. Adhesive must be completely used within the product\'s
recommended work life.
Not for product specifications
The technical data contained herein are intended as reference
only. Please contact your local quality department for
assistance and recommendations on specifications for this
product.
Storage
Store product in the unopened container in a dry location.
Storage information may be indicated on the product container
labeling.
Optimal Storage: -40 °C. Storage below minus (-)40 °C or
greater than minus (-)40 °C can adversely affect product
properties.
Material removed from containers may be contaminated during
use. Do not return product to the original container. Henkel
Corporation cannot assume responsibility for product which
has been contaminated or stored under conditions other than
those previously indicated. If additional information is required,
please contact your local Technical Service Center or
Customer Service Representative.
Conversions
(°C x 1.8) + 32 = °F
kV/mm x 25.4 = V/mil
mm / 25.4 = inches
N x 0.225 = lb
N/mm x 5.71 = lb/in
N/mm2 x 145 = psi
MPa x 145 = psi
N·m x 8.851 = lb·in
N·m x 0.738 = lb·ft
N·mm x 0.1