DM-SIP-2005
Dycotec Materials DM-SIP-2005 is a cost effective screen printable silver paste that is used in stretchable applications such as wearable devices, sensors and medical devices. The paste can be applied to elastomeric and textile substrates and has good washability when used with Dycotec’s encapsulant pastes. It offers excellent electrical conductivity at low silver loading with maximum elongation of 60%.
£231.10 – £960.00
Sample pricing available for on-line purchasing only, please contact us directly for competitive bulk pricing
Product Description
Dycotec Materials DM-SIP-2005 is a cost effective screen printable silver paste that is used in stretchable applications such as wearable devices, sensors and medical devices. The paste can be applied to elastomeric and textile substrates and has good washability when used with Dycotec’s encapsulant pastes. It offers excellent electrical conductivity at low silver loading with maximum elongation of 60%.
Product Benefits
• Low temperature curing temperature (100-140˚C)
• Stretchable ~60% and compatible with a wide variety of substrates
• Electrical conductivity (<10 mΩ/sqr/25µm, 120-140oC)
• Low silver content with high surface coverage (157 cm2/g at 10 µm) ensuring cost effective paste system
• Compatible with Dycotec Materials stretchable encapsulation pastes
Paste Preparation
DM-SIP-2005 is a thermoplastic silver paste system, it is supplied as a single part ready to use ink. Once the paste has been removed from the container for printing, this may introduce contamination. Please do not replace the paste in the container. The paste should be gently stirred before use avoiding incorporation of air bubbles.
Additional information
More | ||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| ||||||||||||||||||||||||||||||||||
|
Still Unsure?
Development
We offer a tailored formulation development service to meet specific customer requirements for stretchable inks this may include:- Specific electrical conductivities
- Development for particular substrates
- Different curing processes
- Different deposition techniques such as syringe, spray or other commonly used printing/coating techniques
- Varying levels of stretchability versus electrical conductivity
- Chemical compatibility
- High resolution structures
Applications
- Wearables
- Sensors
- Medical
- Automotive
- General printed electronics