Choose your ferroelectric route

Select the product according to whether you need a filled electro-active material or a clear high-permittivity system.

Two distinct functional dielectric strategies

The visible product list shows that this collection is not about many similar grades. It is about two clearly differentiated technical routes: one route centered on strong functional dielectric behavior through BTO70 filling, and one route centered on optical transparency with high permittivity.

• High-permittivity behavior for electronics-related demonstrators
• Ferroelectric, pyroelectric and piezoelectric positioning in the filled route
• Clear optically transparent high-permittivity route
• Suitability for dielectric components, sensors and transducers depending on project
• Electro-active material benchmarking rather than standard structural resin selection

Products in this collection

Products in this collection are shown below.

This collection currently includes: 3Dresyn HP1 BTO70 High Permittivity resin with ferroelectric, pyroelectric and piezoelectric properties, and 3Dresyn HP1 Clear High Permittivity optically transparent resin.

3Dresyn HP1 BTO70

HP1 BTO70 is the filled functional route in the visible collection. Its title already defines the core value proposition: high permittivity plus ferroelectric, pyroelectric and piezoelectric properties.

• Functional dielectric route with electro-active positioning
• Filled material route rather than transparent optical route
• Most appropriate when the priority is field-responsive dielectric behavior rather than optical clarity

• Sensors and transducer demonstrators
• Functional electro-active parts
• High-permittivity filled-system R&D
• Projects requiring ferroelectric or piezoelectric positioning

3Dresyn HP1 Clear

HP1 Clear is the optically transparent high-permittivity route in the collection. It is structurally different from BTO70 because the collection title and product title position it around clear high-permittivity behavior rather than explicitly around ferroelectric, pyroelectric and piezoelectric functionality.

• Clear and optically transparent dielectric route
• High-permittivity route where transparency matters
• Suitable when visual transparency and dielectric function must coexist

• Transparent dielectric demonstrators
• Optically clear electronics-related R&D
• Projects where filler opacity would be a limitation
• Comparative studies between clear and filled high-permittivity systems

How to choose the right ferroelectric resin

Selection should begin from the actual function required: filled electro-active behavior or clear high-permittivity optical route.

• Need explicit ferroelectric / pyroelectric / piezoelectric positioning → choose HP1 BTO70
• Need optical transparency with high permittivity → choose HP1 Clear
• Need to compare filled vs clear dielectric strategies → benchmark both routes directly

Filled dielectric route and clear route are not interchangeable

The visible product structure already shows that the collection is split between a functional filled route and a transparent route. Those are different design strategies and should be selected according to the final electrical and optical objective, not just by price or general electronics interest.