Shanghai Huitian New Material Co., Ltd
Created with Pixso.
quote
Created with Pixso. Home > Products >
Electronic Adhesive
>

5274 Two-Part Thermal Gel Enhanced Heat Dissipation In New Energy Vehicles With Thermal Interface Materials

5274 Two-Part Thermal Gel Enhanced Heat Dissipation In New Energy Vehicles With Thermal Interface Materials

5274 Two-Part Thermal Gel Enhanced Heat Dissipation In New Energy Vehicles With Thermal Interface Materials

Product Details:
Place of Origin: CHINA
Brand Name: HUITIAN
Certification: RoHS
Model Number: 5274
Detail Information
Place of Origin:
CHINA
Brand Name:
HUITIAN
Certification:
RoHS
Model Number:
5274
Physical Form:
Paste
Color Part A:
Blue
Color Part B:
White
Density PartA:
3.2 G/cm³
Density PartB:
3.2 G/cm³
Viscosity Part A:
250 MPa·s
Viscosity Part B:
250 MPa·s
Mixing Ratio:
1:1
Opearting Time @25 °C:
1h
Curing Time @25℃:
8h
Curing Time @120℃:
20mins
Curing Hardness (Shore 00):
50
Volume Resistivity:
1.0*10^12 Ω∙cm
Dielectric Strength:
6 KV/mm
Thermal Conductivity:
4.0 W/(m•K)
Highlight:
High Temperature Gel Gap Filler , Huitian Thermal Gel Gap Filler , 5274 Thermal Gel Gap Filler
Trading Information
Minimum Order Quantity:
200 kg
Price:
Negotiation
Packaging Details:
400ml/cartridge; 25kg/barrel; 298kg/drum
Delivery Time:
5-8 days
Payment Terms:
L/C, T/T
Supply Ability:
2000KG/Month
Product Description
 

5274 is a two-component silicone thermal conductive gel, which be able to cure at room temperature or accelerate curing at high temperature

 

Product Description

  • Silicone thermal conductive composite
  • Blue/white gel
  • 1:1 mixture of two components

 

 

Product Features:

  • Thermal conductivity: 4.0 W/m∙K
  • Excellent workability
  • Curing at room temperature or accelerated curing at high temperature
  • Low static/transient stress on substrates
  • High reliability under various conditions

 

 

Technical Parameters

Standards Items Unit Values
Visual Appearance (A/B) -
Blue/white
ASTM D792 Density (A/B) g/ml
3.2/3.2
/ Mix ratio - 1 :1 (W/W)
ASTM D2196 Viscosity Pa·s
250 ±100
ASTM D5470 Thermal conductivity W/(m·K)
4.0
ASTM D5470
Thermal Impedance ℃·cm2 /W 0.43
ASTM D257 Volume resistivity

 

Ω·cm

1.0×1012
ASTM D149 Dielectric strength KV/m 15
UL94 Flame rating - V-0
Operating temperature -40-200
Operating time @ 25℃ min >60
/

Cure time @ 25℃

h 8
Cure time@120℃ min 20

 

Main Applications:

  • Heat dissipation of lithium battery packs in new energy vehicles
  • Heat dissipation of battery packs in energy storage power stations
  • Automotive electronic equipment
  • Large storage devices
  • Communication equipment

 

Packing:

400ml/cartridge; 25kg/barrel; 298kg/drum

 

Storage:

Store at 8-25°C in a cool and dry place.

Shelf life is 6 months.

 

FAQs:

What are the application scenarios for two-component thermal gel?

The two-component gel is the third type of liquid-like thermally conductive material that has emerged following silicone thermal grease and one-component gel Under liguid conditions, its modulus is usually higher than silicone thermal qrease but lower thanone-component gel, so theoretically it can replace most one-component gel applications, and the curable characteristic of two-component gel makes its reliability slightly higher than the former two materials., In areas where one-component gel and siliconethermal grease are not suitable, such as high vibration, high impact, and harsh aging environments, its polymer characteristic of high cross-inking density becomes evident. As a result, two-component gel is widely used in automotive electronics, includingelectric drives, electronic controls, battery thermal conduction, 5G communication network equipment, and other fields.

 

What is the input-output ratio of the two-component gel solution?

Using the two-component gel scheme for a typical customer's power battery as an example, the fixed asset investment includes automation dispensing equipment, as well as the time required for equipment debugging and installation. When compared to the traditional manual installation of thermally conductive pads, the amount of gel dispensed using the automated dispensing scheme is less than the weight of the pads, and it eliminates the need for manual labor. Therefore, dispensing up to 10,000 sets of tooling can achieve break-even.

 

How to implement the two-component gel dispensing plan for power batteries?

Let's take the typical example of automated gel application in power batteries, where an automatic dispensing section is added to the automated line. In this setup, the automatic dispensing equipment utilizes 5-gallon or 55-gallon A/B gel barrels. The gel is pressurized using a platen pump and measured with a plunger cylinder. It is then dispensed using a precision dual-liquid gel valve and mixed with a static mixing tube. The fully mixed gel is applied onto the surface of the liquid-cooled plate by a robotic arm. The gel delivery process is fully sealed to ensure that the gel does not come into contact with air during flow. This significantly reduces the occurrence of bubbles and effectively prevents other process problems that may arise when the gel interacts with air.

 
 
5274 Two-Part Thermal Gel Enhanced Heat Dissipation In New Energy Vehicles With Thermal Interface Materials 0

Created with Pixso.
download Created with Pixso.