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TechnologyOur proprietary formulations and production technologies for low-dimensional nano insulation panels have contributed to advancements in high-temperature thermal insulation materials.
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ProductWe provide end-to-end services—from R&D and manufacturing to sales and installation—delivering fully integrated solutions tailored to your needs.
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ApplicationSanhe has accumulated hundreds of successful engineering cases across industries such as cement, electrolytic aluminum, new energy EV, energy storage ESS, and other high-temperature industrial sectors.
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About UsSanhe New Material is a nationally recognized high-tech enterprise and a "Specialized, Refined, and Innovative" enterprise in Henan Province.
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NewsBuild a bridge of information accessibility with professionalism and speed.
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ContactNo matter the challenge, our team is ready to support you through real-time online assistance, remote video guidance, or on-site engineering services.
Innovation by Numbers
Senior R&D Professionals
National Patents Granted
Years of Material R&D Experience
Joint University Labs
Four Dimensions of Innovation
Material Science
Nano-scale siliceous powder combined with infrared opacifiers and zirconium additives. Patented dry-forming process creates sub-micron pore structures that suppress both conductive and radiant heat transfer.
Academic Collaboration
Joint Innovation Lab co-established with Zhengzhou University and Luoyang Institute of Science & Technology. Sanhe also serves as a Graduate Research Practice Base for Zhengzhou University.
Custom Formulation
Application-specific formulation design for operating temperatures from 400°C to 1,150°C. Thermal simulation and insulation system optimization tailored to every project requirement.
In-House Testing
Full QC instrumentation including thermal conductivity analyzers, high-temperature muffle furnaces, density & thickness gauges. ISO 9001 certified process control from raw material intake to finished product.
Empowering with innovation
Profound technical background and continuous innovation
We embrace a philosophy of simplicity and disciplined execution. By staying focused on building great products and continuously improving ourselves, we are committed to contributing to global energy efficiency and sustainable development.
Ultra-Low Conductivity. Ultimate Thermal Protection
Microporous Structure Blocks Heat Transfer
The microporous material’s superior insulation effect and space efficiency arise from its extremely low thermal conductivity. The microporous structure, with opacifiers, minimises all three heat transmission components – conduction, convection, and radiation – to their physical limits under atmospheric pressure.
Structural Design for Low Thermal Conductivity
The low conductivity of the material results from its small agglomerates of silica particles, each approximately 10 nm in size, which touch each other at only a single point. This point-contact structure significantly reduces solid heat conduction. The pores, smaller than the required free path length for gas molecules, limit the transfer of energy from one molecule to the next. As a result, convection is minimized. Meanwhile, opacifiers restrict infrared radiation, minimizing heat transfer by radiation.
Our product excel in high temperatures
Made from nano-scale inorganic powders and opacifiers via a dry-forming process, creating a nanoporous structure for high-efficiency thermal insulation. This structure effectively suppresses heat transfer through conduction, convection, and radiation, ensuring excellent high-temperature stability and long-term thermal resistance. At 800°C, the thermal conductivity is below 0.036 W/m·K, providing 2–3 times better insulation performance than aerogel and over 4–5 times that of ceramic fiber materials.
Reduce Heat Conduction
◆ Nano Powder
◆ Minimize Contact Area
◆ Extend Heat Transfer Path
Minimize Convection
◆ Create nanoscale space
◆ Trap Air Molecules
◆ Reduce Air Convection
Block Thermal Radiation
◆ Add Opacifiers
◆ Block and Scatter Reflected Thermal radiation
Origin of Technology
We provide end-to-end services—from R&D and manufacturing to sales and installation—delivering fully integrated solutions tailored to your needs.
2021
World-leading certified
In 2021, the product passed the National Science and Technology Achievement Novelty Search Report and completed the National Science and Technology Achievement Appraisal, which gave an evaluation of "world-leading."
2020
Production Base
The Nantong production base began its operations.
2019
Joint lab established
In 2019, the project "Research on Advanced Insulation Materials" (20190312A, 2019.8.28–2024.8.27) was carried out as a collaboration between Zhengzhou University and Luoyang Sanhe New Material Technology Co., Ltd. Sanhe New Materials, together with Zhengzhou University and Luoyang Institute of Science and Technology, established a joint laboratory to further upgrade and optimize the product.
2015
Product finalized
In 2015, the product was finalized and trialed. In 2017, the production line was completed, and the product was officially mass-produced and introduced to the market.
2010
International cooperation launched
In 2010, Professor Ye undertook the International Science and Technology Cooperation Project of the Ministry of Science and Technology (Project Leader at Zhengzhou University) titled "Joint Development of Low-Dimensional Ultra-Microporous Thermal Insulation Refractory Materials" (2010DFB50350, 2010.05–2012.4). Sanhe New Materials (then named Sanhe Insulation) participated as the experimental unit for the project.
2009
863 Program began
In 2009, Professor Ye led the National High Technology Research and Development Program (863 Program) project "Low-Dimensional Thermal Insulation Refractory Materials" (2009AA032503; 2009.5–2011.12).
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Collaboration with Prof. Ye Guotian
The technology of Sanhe New Materials' nano-microporous insulation materials originates from the collaboration with Professor Ye Guotian of Zhengzhou University.
On-site Production & Quality Control
Standardized production and rigorous testing guarantee product quality.
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Empowering global high-temperature industries with energy-efficient thermal insulation solutions
HUATAO GROUP
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No.26 Anshangwei Road, Shangcheng Strt., Yanshi District, Luoyang, Henan, China
Email: irenewang@lyshxcl.com
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