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Description for Elantas (Altana) Conapoxy FR-1047 Black w/ EA-87 Hardener
A two-component, mineral-filled, flame-retardant epoxy potting system, UL94 V-0, Low exotherm, Excellent thermal shock resistance, Good electrical properties with very good arc resistance<br/><br/>Brand Cytec, Conapoxy Application Type Casting, Potting, Encapsulation 1 Part or 2 Part 2-Part Material Form Liquid Industry Potting and encapsulation of electrical devices, Transformers, Coils, Potting and encapsulation of electronic devices, Modules Manufacturer Elantas (Altana) Chemistry Epoxy, Non-flammable: Flame-retardant Cure Method 2-Part Cure, Heat, Room temperature cure Cure Temperature (°C) 25, 60 Cure Time (min) 1,440, 120 Viscosity (cPs) Low, 6,800 Color Black Arc Resistance (sec) Very good High Temperature Resistance (°C) Excellent Thermal shock resistance Volume Resistivity (O) 1.0e15 (ohms/cm) Key Specifications Comply with Directive 2011/65/EU of the European Parliament and of the Council of 8 June 2011 (RoHS 2.0) as amended 31 March 2015, UL (Underwriters Laboratory), ULC (Underwriters Laboratories of Canada), NFPA (National Fire Protection Association): UL 94: UL94 V-0/5VA -
Technical Data for Elantas (Altana) Conapoxy FR-1047 Black w/ EA-87 Hardener
Overview
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Application Type
- Casting / Moldmaking - Casting
- Pottant / Encapsulant - Potting, Encapsulation
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1 Part or 2 Part
- 2-Part
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Material Form
- Liquid
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Industry
- Electronics - Potting and encapsulation of electrical devices, Potting and encapsulation of electronic devices, Modules
- Transformers
- Coils
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Chemistry
- Non-flammable : Flame Retardant - Flame-retardant
- Epoxy
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Application Method
- Other - Meter-mix Vacuum Potting / Casting, Meter-mix Bench Potting / Casting, Hand-mix Bench Potting / Casting
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Cure Method
- Room Temperature / Air Dry - Room temperature cure
- Heat
- 2-Part Cure
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Color
- Black
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Key Specifications
- RoHS (Restriction of Hazardous Substances) - Comply with Directive 2011/65/EU of the European Parliament and of the Council of 8 June 2011 (RoHS 2.0) as amended 31 March 2015
- UL (Underwriters Laboratory), ULC (Underwriters Laboratories of Canada), NFPA (National Fire Protection Association) : UL 94 : V0 - UL94 V-0/5VA
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Brand
- Conapoxy
- Cytec
Specifications
Cure Specs
Cure Temperature (°C) 25, 60 Cure Time (min) 1,440, 120 Viscosity (cPs) Low, 6,800 Test Method Set Time (min) 240 Test Method Linear Shrinkage (%) 1.10 Test Method Work / Pot Time (min) 75 Mix Ratio 100:13 (by weight), 100:23 (by volume) Bond Strength
Compressive Strength (psi) 15,000 Test Method Tensile Strength (psi) 7,600 Test Method Material Resistance
Arc Resistance (sec) Very good High Temperature Resistance (°C) Excellent Thermal shock resistance Conductivity
Dissipation Factor Test Method Filler Mineral-filled Dielectric Strength (V/mil) 400, Good electrical properties Test Method Dielectric Constant 5.10 Test Method Thermal Conductivity (W/m°K) 0.60 Test Method Surface Resistivity (O) 3.0e15 (ohms) Test Method Volume Resistivity (O) 1.0e15 (ohms/cm) Test Method Hardness
Shore D Hardness 85 Test Method Flexibility Limited Other Properties
Glass Transition Temp (Tg) (°C) 57 Test Method Coefficient of Thermal Expansion (CTE) 37 (ppm / °C) Business Information
Shelf Life Details The shelf life of CONAPOXY FR-1047 resin and CONACURE hardeners is 18 months from date of manufacture when stored in the original unopened container., Store below 25°C / 77°F in a dry controlled environment out of direct sunlight. This material should be suitable for use stored under these conditions in the original sealed containers for twelve (12) months from the date of shipment. Shelf Life Temperature (°F) <77 Shelf Life Type From date of manufacture, From the date of shipment Shelf Life (mon) 18, 12 -
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Best Practices for Elantas (Altana) Conapoxy FR-1047 Black w/ EA-87 Hardener
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Mixing
Components may be preheated up to 60°C if reduced viscosity is required. If handmixing, degas at >27 in. Hg vacuum before use
Mix and degas individual components thoroughly prior to use
CONAPOXY® FR-1047 Black Resin contains filler and should be well mixed prior to use until the filler is redistributed homogeneously.
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Curing
The user is responsible for determining the optimum cure conditions for his application.
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Linear Shrinkage Test Methods
| Linear Shrinkage | Test Method | Temp |
|---|---|---|
| 1.10 % | MIL-M-24041C | 25°C |
Set Time Test Methods
| Set Time | Set Temperature | Test Method |
|---|---|---|
| 240 min | 25°C | Gel Time, Mixed |
Viscosity Test Methods
| Viscosity | Test Method | Temperature |
|---|---|---|
| Low | ||
| 6,800 cPs | Mixed, Initial | 25°C |
Compressive Strength Test Methods
| Compressive Strength | Cure Temperature | Test Method |
|---|---|---|
| 15,000 psi | 25°C | ASTM D695 |
Tensile Strength Test Methods
| Tensile Strength | Cure Temperature | Test Method |
|---|---|---|
| 7,600 psi | 25°C | ASTM D412 |
Dielectric Constant Test Methods
| Dielectric Constant | Temperature | Test Method |
|---|---|---|
| 5.10 | 25°C | ASTM D15, 100 Hz |
Dielectric Strength Test Methods
| Dielectric Strength | Temperature | Test Method |
|---|---|---|
| 400 V/mil | 25°C | ASTM D149 |
| Good electrical properties |
Dissipation Factor Test Methods
| Dissipation Factor | Temperature | Test Method |
|---|
Surface Resistivity Test Methods
| Surface Resistivity | Temperature | Test Method |
|---|---|---|
| 3.0e15 (ohms) | 25°C | ASTM D257 |
Thermal Conductivity Test Methods
| Thermal Conductivity | Test Method |
|---|---|
| 0.60 W/m°K | ASTM F438 |
Volume Resistivity Test Methods
| Volume Resistivity | Temp (°C) | Test Method |
|---|---|---|
| 1.0e15 (ohms/cm) | 25°C | ASTM D257 |
Shore D Hardness Test Methods
| Shore D Hardness | Shore Hardness Test Method |
|---|---|
| 85 | ASTM D2240 |
Glass Transition Temp (Tg) Test Methods
| Glass Transition Temp (Tg) | Glass Transition Temperature (Tg) Test Method |
|---|---|
| 57°C | DSC |
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