Loctite3D Loctite 3D IND249 Resin - Black - (1kg)
LOCTITE 3D IND249 is a high-performance resin ideal for applications needing stiffness, thermal durability, and chemical resistance. Its low viscosity allows easy processing, making it suitable for complex geometries and fine details. It's optimized for DLP platforms, perfect for mold tooling and manufacturing aids. The BK variant enhances chemical resistance, expanding its use in various industries.
- High stiffness and thermal durability
- Low viscosity for easy processing
- Excellent chemical resistance
| List Price: | $260.00 |
|---|---|
| Price: | $260.00 |
| Price: | $... |
| Availability: | Currently Unavailable |
| Order Now: | Ships Monday Free U.S. Shipping |
LOCTITE 3D IND249 Resin
Stiffness & Thermal Durability
LOCTITE 3D IND249 is a high-performance material designed for applications requiring stiffness and thermal durability. Its low-viscosity formula allows for easy processing, while its high green strength makes it ideal for printing complex geometries with fine detail. Suitable for demanding production environments, LOCTITE 3D IND249 is commonly used in mold tooling, manufacturing aids, and other intricate designs. Additionally, the BK variant of this material offers excellent chemical resistance, further broadening its application range in industries such as consumer goods and manufacturing. It is optimized for DLP platforms, ensuring compatibility across multiple workflows.
Key Features of the LOCTITE 3D IND249:
- Exceptionally high stiffness
- Low viscosity for ease of processing
- Excellent temperature and chemical resistance
- High accuracy for fine feature resolution
- Ideal for complex geometries and production tooling applications
High-Temperature, High-Strength Solution
LOCTITE 3D IND249 BK is a low-viscosity material designed for challenging geometries with fine feature resolution. Its high stiffness, thermal durability, and exceptional chemical resistance make it perfect for production applications like mold tooling and manufacturing aids.
- High stiffness and thermal durability for demanding production environments.
- Low-viscosity formulation ensures ease of processing and accurate prints.
- Excellent chemical resistance broadens its range of applications.
Key Benefits of LOCTITE 3D IND249 BK
LOCTITE 3D IND249 BK offers a powerful combination of high stiffness, low viscosity, and outstanding chemical resistance, making it ideal for intricate and demanding production applications. Its ability to maintain precision while handling high temperatures ensures reliable performance across various industries, including consumer goods.
- Provides high accuracy and stiffness, ideal for complex geometries.
- Low viscosity allows for easy processing and detailed print resolution.
- Excellent temperature and chemical resistance supports durable manufacturing tools.
Technical Specifications
- Shore Hardness (3s): 88
- IZOD Impact (Notched, J/m): 24
- HDT at 0.455 MPa (°C): 115
- Elongation at Break (%): 5
- Young's Modulus (MPa): 3300
- Tensile Stress at Break (MPa): 98
*Values shown are linked to LOCTITE IND249 BK as reference, please refer to the specific mechanical properties for each of
the colors shown in this document
Workflow for Optimal Performance
To achieve the specified properties of LOCTITE 3D IND249 BK, validated workflows must be followed as outlined in the technical data sheet. Adhering to recommended printer settings and process steps ensures optimal performance in printed parts.
Printer Settings:
- LOCTITE 3D IND249 BK is designed for use with industrial DLP printers. Always consult the safety data sheet for health and safety instructions.
Recommended Print Parameters:
- Shake resin bottle well before use.
- Temperature Range: 20°C to 35°C
- Light Intensity: 3 mW/cm² to 7 mW/cm²
Mechanical and Other Properties
Mechanical Properties (Measured by ASTM D638):
- Young’s Modulus (MPa):
- Green: 1700 – 1880
- Post-Processed: 2980 – 3350
- Tensile Stress at Yield (MPa):
- Green: 43 – 53
- Post-Processed: Not Available
- Elongation at Yield (MPa):
- Green: 4.2 – 4.8
- Post-Processed: Not Available
- Tensile Stress at Break (MPa):
- Green: 37 – 46
- Post-Processed: 83 – 98
- Elongation at Break (%):
- Green: 16 – 24
- Post-Processed: 4 – 7
Flexural Properties (Measured by ASTM D790):
- Flexural Modulus (MPa):
- Green: 2340 – 3330
- Post-Processed: 3170 – 3600
- Flexural Stress at Break (MPa):
- Green: 94 – 130
- Post-Processed: 127 – 153
- Flexural Elongation at Break (%):
- Green: >5
- Post-Processed: 4 – 5
Impact and Hardness Properties:
- IZOD Impact (Notched) (J/m):
- Green: 11 – 24
- Post-Processed: 13 – 24
- Shore Hardness (3s) D (ASTM D2240):
- Green: 74 – 87
- Post-Processed: 81 – 88
Other Properties:
- HDT at 0.455 MPa (°C): 113 – 117
- HDT at 1.82 MPa (°C): 96 – 101
- Water Absorption (24hr) (%): 0.5 – 0.7
- Water Absorption (48hr) (%): 0.6 – 0.7
- Water Absorption (72hr) (%): 0.7 – 0.9
- Solid Density (g/cm³): 1.16 – 1.19 (Green), 1.17– 1.20 (Post-Processed)
- Thermal Conductivity (W/(m·K)): 0.2 – 0.21
- Heat Capacity (J/(g·K)): 1.4 – 1.5
- CTE (< 55°C) (µm/(m·K)): 60 – 67
Questions
Would this work well with taulman bridge filament?
is this product resistant to being soaked in gasoline when dry? (like nylon)
Can this glue nylon to aluminum?
Can this glue other materials to Nylon?
Is the strength of the glue comparable to the nylon the parts are printed with?
How would this compare to CA glue
Does it work on Alloy 910?
Will this work on NylonX?
Where can I find the MSDS?
is this going to come back into stock?
Unfortunately the item has been discontinued.