DOWSIL™ TC-5515 LT Low Density Thermal Conductive Gap Filler

Harmonization Code : 3910.00.00.90 |   Silicones in Primary Forms; Others
Main features
  • Low Density, Soft, & Compliant cured material
  • Room-temperature cure in 360 minutes at 25°C
  • Tacky surface after cure

Product Description

DOWSIL™ TC-5515 LT Low Density Thermally Conductive Gap Filler is a two-part, room-temperature-curing silicone gap filler designed for lightweight thermal management in EV modules, printed circuit boards, control units, and other heat-generating electronic assemblies. With 2.0 W/m·K thermal conductivity, low cured specific gravity of 1.95, and UL 94 V-0 recognition, TC-5515 LT helps transfer heat from electronic devices to aluminum housings or heat sinks while reducing added module weight. Once cured, the material forms a soft, compliant, and tacky interface that provides stress relief in vibration applications, holds vertical position, supports rework after assembly, and maintains reliable performance across a working temperature range of -40°C to 150°C.

Key Features

  • 2.0 W/m·K thermal conductivity for reliable heat dissipation.

  • Low density with cured specific gravity of 1.95.

  • Two-part 1:1 mix ratio by weight or volume.

  • Room-temperature cure in 360 minutes at 25°C.

  • Heat-accelerated cure in 30 minutes at 80°C.

  • Soft, compliant cured material for vibration stress relief.

  • Non-flowable behavior on flat and vertical surfaces.

  • Tacky surface after cure for easier rework after assembly.

  • UL 94 V-0 recognition for flame-rated electronics applications.

  • Excellent dielectric strength of 19 kV/mm.

  • High volume resistivity of ≥1.0 × 10¹³ Ω·cm.

  • Working temperature range of -40°C to 150°C.

  • Suitable for EV modules, PCB assemblies, control units, battery modules, aluminum housings, and heat sink interfaces.

Product Family
DS-TC5515  
35Kg Pail
White

Catalog Product

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Shipping in 5 weeks

Technical Specifications

General Properties
Color
Color
The color
Part A: White | Part B: Blue
Component System
Component System
Describes the number of components that must be supplied, mixed, or activated before application or cure.
Two Part
Mix Ratio
Mix Ratio
The amount of a constituent divided by the total amount of all other constituents in a mixture
1:1
Specific Gravity
Specific Gravity
Specific gravity (SG) is the ratio of the density of a substance to the density of a reference substance; equivalently, it is the ratio of the mass of a substance to the mass of a reference substance for the same given volume.

For liquids, the reference substance is almost always water (1), while for gases, it is air (1.18) at room temperature. Specific gravity is unitless.
A/B: 1.95
Shelf Life
Shelf Life @ 25°C 274 days
Physical Properties
Thixotropic index
Thixotropic index
Thixotropic Index is a ratio of a material s viscosity at two different speeds in Ambient temperature, generally different by a factor of ten.

A thixotropic material s viscosity will decrease as agitation or pressure is increased. It indicates the capability of a material to hold its shape. Mayonnaise is a great example of this. It holds its shape very well, but when a shear stress is applied, the material easily spreads.

It helps in choosing a material in accordance to the application, dispense method and viscosity of a material.
3.5
Viscosity (Part A) @10/s 150000 mPa.s
Viscosity (Part B) @10/s 120000 mPa.s
Viscosity
Mixed Viscosity @10/s 140000 mPa.s
Curing Conditions
Curing Schedule
Cure Time @25°C 360 min
Cure Time @80°C 30 min
Mechanical Properties
Hardness
Durometer (Shore 00) 65
Thermal Properties
Specific Heat Capacity
Specific Heat Capacity
Specific heat capacity is the amount of heat energy required to raise the temperature of a substance per unit of mass. The specific heat capacity of a material is a physical property. It is also an example of an extensive property since its value is proportional to the size of the system being examined.
@20°C 1.40 J/(g⋅°C)
Thermal Conductivity
Thermal Conductivity
Thermal conductivity describes the ability of a material to conduct heat. It is required by power packages in order to dissipate heat and maintain stable electrical performance.

Thermal conductivity units are [W/(m K)] in the SI system and [Btu/(hr ft °F)] in the Imperial system.
2.0 W/m.K
UL 94 Rating
UL 94 Rating
Flammability rating classification.
It determines how fast a material burns or extinguishes once it is ignited.

HB: slow burning on a horizontal specimen; burning rate less than 76 mm/min for thickness less than 3 mm or burning stops before 100 mm
V-2: burning stops within 30 seconds on a vertical specimen; drips of flaming particles are allowed.
V-1: burning stops within 30 seconds on a vertical specimen; drips of particles allowed as long as they are not inflamed.
V-0: burning stops within 10 seconds on a vertical specimen; drips of particles allowed as long as they are not inflamed.
5VB: burning stops within 60 seconds on a vertical specimen; no drips allowed; plaque specimens may develop a hole.
5VA: burning stops within 60 seconds on a vertical specimen; no drips allowed; plaque specimens may not develop a hole
V0
Electrical Properties
Dielectric Strength
Dielectric Strength
Dielectric strength is measured in kV per mm and is calculated by the Breakdown voltage divided by the thickness of the tested material.

Those two properties go hand in hand and while Breakdown voltage is always thickness dependent, dielectric strength is a general material property.

As an example, the dielectric strength of Polyimide is 236 kV/mm. If we place 1mm of Polyimide between two electrodes, it will act as an insulator until the voltage between the electrodes reaches 236 kV. At this point it will start acting as a good conductor, causing sparks, potential punctures and current flow.
19.0 kV/mm
Volume Resistivity
Volume Resistivity
Volume resistivity, also called volume resistance, bulk resistance or bulk resistivity is a thickness dependent measurement of the resistivity of a material perpendicular to the plane of the surface.
≥ 1.0 E+13 Ohms⋅cm

Additional Information

DOWSIL™ TC-5515 LT: Low Density Thermally Conductive Gap Filler for EV Modules

DOWSIL™ TC-5515 LT Low Density Thermally Conductive Gap Filler is a two-part, room-temperature-curing silicone gap filler designed to dissipate heat from EV modules, printed circuit boards, and other heat-generating electronic components. With 2.0 W/m·K thermal conductivity, low cured specific gravity of 1.95, UL 94 V-0 recognition, and a soft compliant cured form, TC-5515 LT helps provide reliable thermal transfer while reducing weight and mechanical stress in battery packs, control units, and electronic modules.

Lightweight thermal gap filling for EV and electronics reliability — TC-5515 LT combines 2.0 W/m·K thermal conductivity, low density, soft compliance, and vertical stability for reliable module cooling.

Once cured, the material remains soft and tacky for easy rework, while providing dielectric insulation, environmental protection, and stress relief against vibration, shock, and thermal cycling.

Designed for EV battery and control unit modules — suitable for transferring heat from EV modules, PCB-mounted components, and power electronics to aluminum housings or heat sinks.

The low-density silicone formulation supports lightweight thermal management while maintaining stable performance across demanding temperature and vibration environments.

DOWSIL TC-5515 LT low density thermally conductive gap filler for EV modules

2.0 W/m·K Thermal Conductivity • Low Density 1.95 • UL 94 V-0 • -45 °C to 150 °C Operation

Features & Benefits

  • 2.0 W/m·K thermal conductivity — supports reliable heat dissipation.
  • Low density — cured specific gravity of 1.95 for weight-sensitive designs.
  • Room-temperature cure — cures in 360 minutes at 25 °C.
  • Heat-accelerated cure — cures in 30 minutes at 80 °C.
  • Soft and compliant — provides stress relief in vibration applications.
  • Non-flowable after dispense — holds position on flat and vertical surfaces.
  • Surface tacky after cure — supports rework after curing and assembly.
  • UL 94 V-0 recognition — suitable for flame-rated electronic assemblies.

Typical Applications

  • EV battery module thermal management.
  • EV control unit modules.
  • PCB-to-aluminum housing thermal interfaces.
  • Automotive electronics and power modules.
  • Component-to-heat-sink gap filling.
  • Lightweight electronics thermal management.
  • Vibration-sensitive module assemblies.
EV & Electronics Thermal Management Perspective

Thermal Challenges in Lightweight EV Modules

EV battery and control unit modules require thermal materials that can dissipate heat while limiting added weight and protecting sensitive electronics from mechanical stress. DOWSIL™ TC-5515 LT helps address these needs with a low-density silicone gap filler that transfers heat from EV modules, printed circuit boards, and other heat-generating components to aluminum housings or heat sinks.

Weight Reduction
Low cured specific gravity of 1.95 supports thermal management in weight-sensitive EV and electronic module designs.
Stress Relief
Soft compliant silicone helps absorb vibration, shock, and thermal expansion mismatch after cure.
Reworkability
Surface tack after curing supports easier rework and assembly serviceability.
Typical Properties

Engineering Data for DOWSIL™ TC-5515 LT

Property DOWSIL™ TC-5515 LT Condition / Note
Type Two-part silicone gap filler Low density thermally conductive material
Mix Ratio 1:1 By weight or volume
Color Part A: White
Part B: Blue
Typical appearance
Mixed Viscosity 140 Pa·s At 10 s-1
Thixotropic Index 3.5 1 s-1 / 10 s-1
Working Time 90 minutes At 25 °C
Specific Gravity, Cured 1.95 Low density
Thermal Conductivity 2.0 W/m·K Hot Disk
Cure Time 360 minutes At 25 °C
Heat-Accelerated Cure 30 minutes At 80 °C
Hardness Shore 00 65 Soft compliant material
Dielectric Strength 19.0 kV/mm Cured material
Volume Resistivity ≥ 1.0E+13 ohm·cm Electrical insulation
Lap Shear Strength 0.20 MPa Aluminum to aluminum
Shear Modulus 0.27 MPa DMA
Minimum BLT 142 µm at 0.14 MPa
127 µm at 0.42 MPa
Bondline thickness data
UL Flame Classification UL 94 V-0 Recognized classification
Shelf Life 9 months At 25 °C

*Typical properties are not intended for specification writing. Verify performance under actual application, substrate, assembly, compression, cure, and reliability conditions.

Applications

Where DOWSIL™ TC-5515 LT Fits

EV Battery Modules
Low-density gap filling supports thermal transfer and weight reduction in EV module assemblies.
  • Battery modules
  • Cell-to-plate interfaces
  • Thermal management assemblies
Control Unit Modules
Designed to dissipate heat from printed circuit boards and control units to aluminum housings or heat sinks.
  • EV control units
  • PCB-mounted components
  • Aluminum housing interfaces
Vertical Dispensing
Non-flowable behavior helps the material stay in place after dispensing on flat or vertical surfaces.
  • Vertical gaps
  • Automated dispensing
  • Reworkable module assemblies
Processing

Mixing, Dispensing & Cure

Mixing

Mix Part A and Part B at a 1:1 ratio by weight or volume. A static mixer is recommended for manual and automated dispensing.

Dispensing

The thixotropic, non-flowable material is designed to remain in position after dispensing, including flat and vertical applications.

Curing

Cures in 360 minutes at 25 °C or can be heat accelerated to 30 minutes at 80 °C. No post-cure is required after cure completion.

Technology Advantage

How TC-5515 LT Supports EV Module Design

Design Challenge DOWSIL™ TC-5515 LT Benefit
EV modules require thermal transfer with reduced added weight. Low specific gravity of 1.95 supports lightweight thermal gap filling.
Vibration and thermal cycling can stress sensitive components. Soft compliant silicone provides stress relief after cure.
Thermal material must stay in place during assembly. Non-flowable behavior supports flat and vertical dispensing conditions.
Module assemblies may require serviceability after cure. Tacky cured surface helps enable easier rework after assembly.
Next Steps

Ready to Evaluate DOWSIL™ TC-5515 LT?

Share your EV module type, PCB or battery pack layout, target gap, compression limit, vertical dispensing requirement, cure preference, and flame rating needs. We can help assess whether DOWSIL™ TC-5515 LT is suitable for your lightweight thermal gap filling application.

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