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ESD HIPS filament
As low as €89.99
inc. VAT
In stock
Only %1 left
SKU
000028517029
PROTECT YOUR ELECTRONICS
⭐ Controlled Dissipation of Static Charges
⚡ Protect Circuit Boards, Sensors, Microcontrollers
✨ Longevity and Reliability for Sensitive Electronic Components
❤️ Perfect for Arduino and Raspberry Pi Housings
- Diameter: 1.75mm +/- 0.03mm
- Neating Winding, Smooth Feeding
3DTrcek ESD HIPS Filament
3D TRCEK ESD HIPS filament is engineered to have electrostatic dissipative properties. This means it can safely and slowly release any built-up electrostatic charge, preventing sudden discharges that could damage sensitive electronics. Perfect for Arduino and Raspberry Pi housings.
The material's electrical properties are permanent and are not dependent on atmospheric conditions. Use it to protect circuit boards, microcontrollers, and other electronic components. It's ideal for sensor covers, control units and electronic housing.
Quality Assurance
Full Mechanical Winding: Detailed manual inspection ensures tangle-free filaments.
Vacuum-Sealed Spools: Sealed within 5 minutes of production for optimal quality.
Material Purity: No recycled or recovered materials used, guaranteeing stability in diameter and minimal ovality.
Storage Guidelines
Dry and Shaded Room: Store in a room with a temperature range of 0℃-40℃.
Moisture Absorption: Dry before use if the filament absorbs moisture.
Compatibility
With over 10 years of 3D filament R & D experience 3DTrcek produces only the most premium filaments delivering exceptional results on all major FDM printers such as Creality, Prusa, Anycubic, Elegoo etc.
Manufactured in SLOVENIA
What is ESD?
Electrostatic Discharge (ESD) is the sudden flow of electricity between two electrically charged objects. It can occur when there is a difference in electrical potential between these objects, and the charge equalizes rapidly.
Causes of ESD:
Common causes of ESD include friction, induction, and the triboelectric effect. For example, when two materials rub against each other, one material may lose electrons (become positively charged), and the other gains electrons (become negatively charged), leading to a potential for discharge.
Effects of ESD:
ESD can damage electronic components and devices. The discharge can create high levels of voltage and current for a very short duration, causing failures in semiconductor devices, integrated circuits, and other sensitive electronic components.
Technical Specifications
- Diameter: 1.75mm
- Dimensional Accuracy: ±0.03mm
- Net Weight: 1000g
- Total Weight: 1220g
- Spool Dimensions: 200mm Total Diameter, 52mm Inner Hole Diameter, 68mm Width
Recommended Settings
- Nozzle Temperature: 230-250°C
- Bed Temperature: 80-110°C
- Printing Speed: 35-60 mm/s
- Closed Chamber:40-90°C
- Oven Drying Settings: 55°C, 7 h
- Container's Humidity: < 20% RH (Sealed, with Desiccant)
The suggested settings serve as a starting point for your optimal print configuration. Feel free to experiment beyond these ranges based on your printer's specific characteristics.
| Property | Value | Meaning |
| Density @ 23°C | 1.087 g/cm³ | Material mass per unit volume. Important for weight and strength in 3D printing. |
| Hardness (15-second value - Shore D) (ASTM D2240) | 75 Shore D | Shore D hardness of 75 means it's a hard material. |
| Heat Distortion Temperature @ 1.80 MPa (ISO 75) | 70°C | Temperature at which the material starts to deform under load. |
| Vicat Softening Point @ 10 N (ISO 306) | 102°C | Temperature at which the material softens under a load. |
| Melt Flow Index (200°C/5 kg) (ISO 1133) | 1 g/10 min | Indicates ease of material melting. A low value (1) suggests slow melt rate. |
| Volume Resistivity | 3 x 10^2 Ohm.cm | Indicates material's resistance to electrical current flow through its volume. |
| Surface Resistivity | 1 x 10^5 Ohm/sq | Crucial for parts requiring controlled dissipation of static charges. Suitable for 3D printing anti-static or ESD-safe components. |
| Flexural Modulus (ISO 178) | 1875 MPa | Higher modulus indicates greater stiffness. Suitable for 3D printing parts requiring shape maintenance and resistance to bending. |
| Tensile Strength at Break (ISO 527) | 24.3 MPa | Represents material's maximum stress before breaking. |
| Tensile Strength at Yield (ISO 527) | 30.4 MPa | Stress at which material starts to deform plastically. |
| Elongation at Break (ISO 527) | 25% | Indicates material's ability to stretch before breaking. A value of 25% suggests moderate flexibility, suitable for parts experiencing some deformation without immediate failure. |
| Notched Izod Impact @ 23°C (ISO 180) | 15 KJ/m² | Resistance to impact, especially at a notched section. |
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ESD HIPS filament
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