Patented Technology

The Concrete Revolution:
Built-In Energy

Voltocrete transforms walls, ceilings, and floors into long-lasting heating surfaces — a patented solution that builds comfort directly into the structure.
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[PRODUCT details]
Next generation of eco-friendly heating systems
Voltocrete is a smart heating solution that integrates directly into walls, ceilings, or floors. As it is built in the same stage as load-bearing and boundary elements, accelerates construction without requiring specialized skills for installation. Eliminates the need for fragile pipes or infrared mats and ensures a lifespan comparable to the building’s structure. Resistant to damage, cracks and drillings, Voltocrete can also be used in retrofit as a plaster layer. Incorporating industrial by-products, it combines durability with sustainability, turning concrete into an energy-efficient, recyclable material for next-generation buildings.
GO TO PRODUCTS
Structural
element
Heating
system
Voltocrete Smart Structure element
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[TECHNOLOGY]

Technology that heats itself

01 Heat-Generating Concrete
02 Performance and Durability
03 Efficiency and Economy
04 Sustainability and Applications
The Voltocrete heating system is composed of a silicate-based material made with adding conductivity-enhancing fillers that generates heat on its own, without the need for circulating fluids, piping, or electrical heating cables. Operating normally on micro-voltage, it can run safely on higher voltages and both AC and DC as well, depending on requirements.

What makes it unique is its ability to combine the role of a building’s energy system with that of a load-bearing structure, or even of a finishing surface if needed.

Voltocrete offers freedom in design and application: like fresh concrete, it can be shaped before setting. What makes it different is that it can be later drilled or cut without losing functionality.

Even cracks in the structure do not compromise its performance, as electrical current simply bypasses damaged areas.

Containing no liquids or mechanical components, the system is exceptionally durable and requires virtually no maintenance. Its service life is comparable to that of the building’s load-bearing structure itself, ensuring long-term reliability.
By adding conductivity-enhancing fillers only where heating is required, Voltocrete minimally increases the environmental footprint of the construction while delivering significant cost savings.

Installation requires no specialized labor, unlike complex hydronic or heat pump systems, reducing both upfront and lifecycle costs.

With rapid response times and infrared radiation, Voltocrete quickly creates and sustains thermal comfort, improving energy efficiency and accelerating return on investment in a labor-constrained construction market.
Voltocrete not only supports sustainable construction by incorporating industrial by-products, but it also broadens the range of heating applications.

Beyond residential and industrial buildings, it can serve in processes such as preheating pools, drying areas, or even outdoor de-icing surfaces. Its multifunctionality, recyclability, and compatibility with renewable energy sources position it as a future-ready solution for diverse infrastructure needs.
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LEARN MORE on TECHNOLOGY
[TECHNOLOGY]

Technology that heats itself

Heat-Generating Concrete

The Voltocrete heating system is a silicate-based material that generates heat on its own, without the need for circulating fluids, piping, or electrical heating cables. Operating safely on micro-voltage, it can run on both AC and DC depending on requirements.

What makes it unique is its ability to combine the role of a load-bearing structure with that of a building’s energy system, or even a finishing surface if needed.

Thanks to its material composition and dark color, it transfers heat not only through conduction and convection but also via infrared radiation, resulting in efficient and complex thermal performance.

Efficiency and Economy

By adding conductivity-enhancing fillers only where heating is required, Voltocrete minimally increases the environmental footprint while delivering significant cost savings.

Installation requires no specialized labor, unlike complex hydronic or heat pump systems, reducing both upfront and lifecycle costs.

With rapid response times and infrared radiation, Voltocrete quickly creates and sustains thermal comfort, improving energy efficiency and accelerating return on investment in a labor-constrained construction market.

Performance and Durability

Voltocrete offers freedom in design and application: like fresh concrete, it can be shaped before setting and later drilled or cut without losing functionality.

Even cracks in the structure do not compromise its performance, as electrical currents simply bypass damaged areas.

Containing no liquids or mechanical components, the system is exceptionally durable and requires virtually no maintenance. Its service life is comparable to that of the building’s load-bearing structure itself, ensuring long-term reliability.

Sustainability and Applications

Voltocrete not only supports sustainable construction by incorporating industrial by-products, but it also broadens the range of heating applications.

Beyond residential and industrial buildings, it can serve in processes such as preheating pools, drying areas, or even outdoor de-icing surfaces. Its multifunctionality, recyclability, and compatibility with renewable energy sources position it as a future-ready solution for diverse infrastructure needs.

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TECHNOLOGY BEHIND Delivering Low-Emissions Infrastructure.
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Advising on-site and off-site wind integration to help logistics operations transition to Zero Emissions.
Harnessing sensor data and analytics to optimize flow and predict disruptions across multi-modal networks.
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With Lifecycle, your supply chain becomes a strategic asset: agile, intelligent, and aligned with your long-term goals for growth and sustainability.
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[TECHNOLOGY]
Technology that heats itself
01 Heat-Generating Concrete
02 Performance and Durability
03 Efficiency and Economy
04 Sustainability and Applications
The Voltocrete heating system is a silicate-based material that generates heat on its own, without the need for circulating fluids, piping, or electrical heating cables. Operating safely on micro-voltage, it can run on both AC and DC depending on requirements.

What makes it unique is its ability to combine the role of a load-bearing structure with that of a building’s energy system, or even a finishing surface if needed.

Thanks to its material composition and dark color, it transfers heat not only through conduction and convection but also via infrared radiation, resulting in efficient and complex thermal performance.
Voltocrete offers freedom in design and application: like fresh concrete, it can be shaped before setting and later drilled or cut without losing functionality.

Even cracks in the structure do not compromise its performance, as electrical currents simply bypass damaged areas.

Containing no liquids or mechanical components, the system is exceptionally durable and requires virtually no maintenance. Its service life is comparable to that of the building’s load-bearing structure itself, ensuring long-term reliability.
By adding conductivity-enhancing fillers only where heating is required, Voltocrete minimally increases the environmental footprint while delivering significant cost savings.

Installation requires no specialized labor, unlike complex hydronic or heat pump systems, reducing both upfront and lifecycle costs.

With rapid response times and infrared radiation, Voltocrete quickly creates and sustains thermal comfort, improving energy efficiency and accelerating return on investment in a labor-constrained construction market.
Voltocrete not only supports sustainable construction by incorporating industrial by-products, but it also broadens the range of heating applications.

Beyond residential and industrial buildings, it can serve in processes such as preheating pools, drying areas, or even outdoor de-icing surfaces. Its multifunctionality, recyclability, and compatibility with renewable energy sources position it as a future-ready solution for diverse infrastructure needs.
More information
More information
[Resources]
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white paper on Voltocrete's technology
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What Makes Voltocrete Different?
Technology
Unique manufacturing method compatible with standard building materials

No need for fragile pipes or heating mats

Protected by patents and international certifications
Usage & Durability
Easy and fast installation, no special expertise required

Completely maintenance-free

Resistant to drilling and cracks
Economic Benefits
Up to 60% cheaper heating system for family houses

Reduced maintenance costs throughout the building’s life cycle

Faster construction process, saving both time and money
Reduction of Footprint
Quick heat sensation and high thermal comfort → reduced energy consumption

Lower material use thanks to integrated functionality

Made with industrial by-products → promoting recycling and sustainability
[GET TO KNOW US]
From Research to Reality: Our Founders
Civil engineer and PhD from the Budapest University of Technology and Economics, Dániel has led multiple breakthrough material development projects. His expertise in structural analysis and sustainable building materials has already resulted in trial productions by leading industry players. He bridges research and practice to bring entirely new solutions to market.
Dániel Csanády
CO-FOUNDER
As the team’s economic expert, Lili combines her knowledge of economics with a deep understanding of the construction sector. Currently studying at BGE, she applies theory to practice by integrating sustainability into economic models. Her mission: shaping systems that benefit both industry and society.
LILI KISPÁL
CO-FOUNDER
Specializing in the digitalization and robotization of construction, Benedek is a recognized voice in prefabrication technologies. His award-winning research and Edison-like problem-solving philosophy drive him to transform ideas into real-world impact, blending engineering creativity with economic insight.
Benedek Krepler
CO-FOUNDER
Holding a PhD from Brazil in cement nanotechnology, Péter has mentored PhD and MSc students and published extensively in international journals. Fluent in four languages, he is dedicated to turning science-fiction-like concepts into sustainable, real-world solutions for future generations.
Péter Dr.Ludvig
CO-FOUNDER
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[our TEAM]
Get to know our founders
CO-FOUNDER
Dániel Dr. Csanády
Civil engineer and PhD from the Budapest University of Technology and Economics, Dániel has led multiple breakthrough material development projects. His expertise in structural analysis and sustainable building materials has already resulted in trial productions by leading industry players. He bridges research and practice to bring entirely new solutions to market.
CO-FOUNDER
Lili Kispál
As the team’s economic expert, Lili combines her knowledge of economics with a deep understanding of the construction sector. Currently studying at BGE, she applies theory to practice by integrating sustainability into economic models. Her mission: shaping systems that benefit both industry and society.
CO-FOUNDER
Benedek Krepler
Specializing in the digitalization and robotization of construction, Benedek is a recognized voice in prefabrication technologies. His award-winning research and Edison-like problem-solving philosophy drive him to transform ideas into real-world impact, blending engineering creativity with economic insight.
CO-FOUNDER
Péter Dr. Ludvig
Holding a PhD from Brazil in cement nanotechnology, Péter has mentored PhD and MSc students and published extensively in international journals. Fluent in four languages, he is dedicated to turning science-fiction-like concepts into sustainable, real-world solutions for future generations.
More About us
[Get to know us]
From Research to Reality: Our Founders
Co-Founder
Dániel Dr. Csanády
Civil engineer and PhD from the Budapest University of Technology and Economics, Dániel has led multiple breakthrough material development projects. His expertise in structural analysis and sustainable building materials has already resulted in trial productions by leading industry players. He bridges research and practice to bring entirely new solutions to market.
Co-Founder
Lili Kispál
As the team’s economic expert, Lili combines her knowledge of economics with a deep understanding of the construction sector. Currently studying at BGE, she applies theory to practice by integrating sustainability into economic models. Her mission: shaping systems that benefit both industry and society.
Co-Founder
Benedek Krepler
Specializing in the digitalization and robotization of construction, Benedek is a recognized voice in prefabrication technologies. His award-winning research and Edison-like problem-solving philosophy drive him to transform ideas into real-world impact, blending engineering creativity with economic insight.
Co-Founder
Péter Dr. Ludvig
Holding a PhD from Brazil in cement nanotechnology, Péter has mentored PhD and MSc students and published extensively in international journals. Fluent in four languages, he is dedicated to turning science-fiction-like concepts into sustainable, real-world solutions for future generations.
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Referencia később
Success Stories
These customer stories showcase how purpose-driven businesses turned complexity into opportunity—and emerged stronger with Lifecycle’s support.
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[Future]
Our mission: developing multifunctional concretes and integrating the Voltocrete heating system into existing technologies.
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[more information]
Blog később akár Resources & Information
We analyze and redesign logistics networks to improve efficiency, reduce emissions, and build resilience. From route planning to warehouse integration.
Smart Logistics
Optimizing freight systems with data-driven strategies.
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Regenerative Agriculture
Helping scale climate-smart practices that restore land health.
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Enviro-Intelligence
Turning raw environmental data into actionable insight.
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[Frequently asked questions]
Got a question about Voltocrete?
If your challenge isn’t listed here, let’s talk — together we’ll find out how Voltocrete can bring value to your building or infrastructure.
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What is Voltocrete and how does it work?
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Voltocrete is a silicate-based, electrically conductive concrete that generates heat through low-voltage current (Joule heating). By integrating conductive fillers into the concrete, the structure itself: walls, floors, or ceilings becomes the heating surface, eliminating the need for pipes or fragile heating mats.
Is it safe for people and buildings?
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Yes. Voltocrete operates on safe micro-voltage levels (below 48V DC) and meets building certification standards. Because the heating function is embedded in the concrete matrix, it is resistant to cracks, drillings, and long-term structural stress, offering reliability comparable to traditional load-bearing materials.
How does Voltocrete compare to traditional heating systems?
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Unlike conventional systems that rely on cables, pipes, or mechanical components, Voltocrete requires no maintenance and can last as long as the building itself. It is easier to install, up to 60% more cost-effective in family homes, and provides faster heat sensation with lower energy consumption.
What are the sustainability benefits of Voltocrete?
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Voltocrete incorporates industrial by-products to reduce waste and supports circular economy principles. By generating heat directly in the structure, it minimizes energy loss, reduces material use, and is fully compatible with renewable energy systems and smart grids.
Where can Voltocrete be used?
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Voltocrete heating system can be adapted to any new-built or existing building structure, or even outdoor patios, stocking areas or street furnitures. It can be for residential, commercial or industrial use, public or private: there will be always a solution that fits your needs.
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