Products & Services
Shaping the Future of
Industry with Thermal Technology
We are not just an equipment manufacturer.
Building on over 70 years of combustion technology since our founding in 1953, and backed by more than 150 annual tests, we are your technology partner who turns your vision into reality. From electronic components to next-generation battery materials and aerospace parts, we provide total support for thermal processing challenges across all industries, from pre-investment verification through mass production and maintenance.
Why Choose Takasago?
reason 01
Minimize Investment Risk
Verify before you invest.
With over 150 annual tests conducted across multiple test furnaces, we enable pre-verification using your actual materials. Confirm process feasibility before committing to capital investment.
reason 02
Accelerate Development Speed
From lab to mass production, at maximum speed.
From small-scale trials to full production, the same dedicated team supports you every step of the way, accelerating your time to market. Joint development also helps reduce R&D costs.
reason 03
Achieve Carbon Neutrality
Energy savings and CO2 reduction, simultaneously.
Vacuum technology enables energy savings and improved working environments, achieving zero CO2 emissions from the furnace.
Our Business Divisions
Industrial Furnace Division
70 years of combustion technology powering the future of industry. From electronic components to next-generation battery materials, we address a wide range of thermal processing needs.
Vacuum Furnace Division
Leveraging vacuum heat treatment technology, we provide optimal solutions tailored to your challenges and needs.
At the Forefront of Innovation
Capital Alliance with Tohoku University Startup 3DC (Announced April 2024)
Participating in the mass production technology development of the next-generation battery material "Graphene Mesosponge".
Supporting the performance innovation of lithium-ion batteries.
Green Hydrogen & Ammonia Processing Technology
Advancing technology development for a hydrogen-based society, including ammonia cracking at 550-800 degrees Celsius and thermal management for electrolysis systems.
