Thermal - Pads, Sheets

Part Number	Description / PDF	Quantity
EYG-A091205PA Panasonic	THERM PAD 115MMX90MM W/ADH GRAY	9
EYG-R0508ZLMJ Panasonic	THERM PAD 46.2X83X0.25MM GRAY	30
EYG-N0912QF6S Panasonic	THERM PAD 115MMX90MM W/ADH WHITE	9
EYG-R0917ZRWC Panasonic	THERM PAD 85X168X0.35MM GRAY	10
EYG-R0811ZRWG Panasonic	THERM PAD 78X108X0.35MM GRAY	10
EYG-A091204RV Panasonic	THERM PAD 115MMX90MM W/ADH GRAY	0
EYG-A091204KV Panasonic	THERM PAD 115MMX90MM W/ADH GRAY	0
EYG-N0912QG3S Panasonic	THERM PAD 115MMX90MM W/ADH WHITE	1
EYG-S060910 Panasonic	THERM PAD 90MMX60MM GRAY	0
EYG-S1315ZLGA Panasonic	THERM PAD 150MMX129.5MM GRAY	1
EYG-S091205 Panasonic	THERM PAD 115MMX90MM GRAY	5
EYG-A121801PA Panasonic	THERM PAD 180MMX115MM W/ADH GRAY	1
EYG-R0508ZRMJ Panasonic	THERM PAD 46.2X83X0.35MM GRAY	20
EYG-A091205KV Panasonic	THERM PAD 115MMX90MM W/ADH GRAY	0
EYG-R0204ZRSN Panasonic	THERM PAD 24X36.5X0.35MM GRAY	30
EYG-N0912QD4S Panasonic	THERM PAD 115MMX90MM W/ADH WHITE	8
EYG-S1419ZLWB Panasonic	THERM PAD 186MMX136MM GRAY	70
EYG-A121803KV Panasonic	THERM PAD 180MMX115MM W/ADH GRAY	0
EYG-R0813ZLMD Panasonic	THERM PAD 71X123X0.25MM GRAY	10
EYG-S1113ZLMB Panasonic	THERM PAD 132MMX106MM GRAY	9

Thermal - Pads, Sheets

1. Overview

Thermal pads and sheets are thermally conductive materials used to transfer heat away from electronic components to heat sinks or ambient environments. They fill air gaps between uneven surfaces, improving thermal efficiency. These materials are critical in modern electronics, automotive systems, and industrial equipment to prevent overheating, enhance reliability, and ensure compliance with safety standards.

2. Main Types and Functional Classification

Type	Functional Features	Application Examples
Silicone-Based Pads	High flexibility, low compression force, dielectric insulation	Smartphones, laptops, LED lighting
Non-Silicone Pads	Lower cost, reduced silicone oil migration	Power supplies, industrial controls
Phase Change Materials (PCM)	Softening at operational temperatures for better contact	CPUs, GPUs, servers
Metal-Backed Pads	Aluminum/copper reinforcement for structural support	EV battery packs, high-power lasers
Graphite Sheets	Ultra-thin, anisotropic heat spreading	5G base stations, wearable devices

3. Structure and Composition

Typical thermal pads consist of:

Base Material: Silicone rubber (standard), polyurethane (low-cost), or epoxy (rigid)
Filler: Aluminum oxide, boron nitride, or silver-coated particles for thermal conductivity
Adhesive Layers: Pressure-sensitive acrylic or silicone adhesives (optional)
Reinforcement: Fiberglass mesh or metal foils for mechanical stability

4. Key Technical Parameters

Parameter	Importance
Thermal Conductivity (W/m K)	Measures heat transfer efficiency (ASTM D5470)
Thickness (mm)	Impacts contact resistance and compression force
Operating Temperature Range ( C)	Determines material stability under thermal stress
Hardness (Shore 00)	Affects conformability to surfaces
Adhesion Strength (N/mm )	Critical for mechanical fixation
Electrical Insulation (kV/mm)	Essential for high-voltage applications

5. Application Fields

Major industries include:

Consumer Electronics: Mobile phones (e.g., Samsung Galaxy series), tablets, gaming consoles
Automotive: EV battery thermal management (Tesla Model 3), powertrain inverters
Telecom: 5G base stations (Huawei AAU modules), optical transceivers
Industrial: CNC machines, medical imaging equipment
Aerospace: Avionics cooling systems

6. Leading Manufacturers & Products

Manufacturer	Representative Product	Key Specification
Laird Performance Materials	THERM-A-GAP GEL 15	15 W/m K, 0.5mm thickness
Bergquist (Henkel)	Gap Pad 1500S	Silicone-free, 8.0 W/m K
3M	5595 PCM	Phase change at 55 C, 12 W/m K
Fujipoly	SARCON Matrix MG	Metal-gel hybrid, 20 W/m K
Momentive	TSE 3045	Graphite sheet, 400 W/m K (in-plane)

7. Selection Guidelines

Key considerations:

Thermal Requirements: Calculate required thermal conductivity based on power dissipation (using Fourier's Law)
Mechanical Constraints: Evaluate hardness-thickness trade-offs for housing clearance
Environmental Factors: Check temperature/chemical resistance for outdoor/automotive use
Cost Optimization: Balance performance vs. budget (e.g., graphite sheets cost 30% more than silicone pads)
Regulatory Compliance: Ensure RoHS/REACH certification for EU markets

8. Industry Trends

Emerging trends include:

Ultra-Thin Materials: 0.1mm graphite sheets for foldable devices
High-Conductivity Composites: Boron nitride nanotube-enhanced pads (30+ W/m K)
Smart Thermal Interfaces: Electro-responsive materials with tunable conductivity
Green Manufacturing: Water-based silicone formulations reducing VOC emissions
Integrated Solutions: Combination pads with embedded temperature sensors