A visit from a Tsinghua University client—deepening industry-academia-research collaboration and jointly promoting technological innovation in advanced materials.EbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere Furnac
EbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere Furnac I. Client Background
Client Name: Tsinghua UniversityEbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere Furnac
EbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere Furnac
Visiting Party: Representatives from the School of Materials Science and Engineering and relevant research teamsEbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere Furnac
EbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere Furnac
University Profile: As one of China’s top-tier higher education institutions, Tsinghua University enjoys a high reputation nationwide and globally in the field of materials science and engineering. The School of Materials Science and Engineering hosts multiple national and ministerial-level scientific research and teaching platforms, including the State Key Laboratory of New Ceramics and Fine Processing, Key Laboratory of Advanced Materials of the Ministry of Education, Key Laboratory of Advanced Materials Processing Technology of the Ministry of Education, Beijing Electron Microscopy Center, and the National Virtual Simulation Experimental Teaching Demonstration Center for Advanced Materials.EbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere Furnac
The school has established research institutes covering metallic materials, environmental materials, and nuclear materials. Its research scope broadly encompasses materials physics and chemistry, metallic materials, inorganic non-metallic materials, composite materials, electronic materials, thin film materials, nuclear materials, environmental materials, biomaterials, and nanomaterials.EbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere Furnac
EbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere Furnac
Visiting Background: The School of Materials Science and Engineering undertakes numerous national key R&D projects for advanced new materials and cutting-edge scientific research programs, conducting high-level research on new ceramic materials, new energy materials, functional thin film materials, nuclear materials and other fields.EbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere Furnac
With in-depth research advancement, multiple research groups have raised higher requirements for heat treatment equipment featuring high vacuum degree, superior temperature uniformity and precise atmosphere control, including vacuum sintering furnaces, atmosphere muffle furnaces, multi-zone tube furnaces and rotary tube furnaces.EbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere Furnac
The university has previously issued public tenders for high-temperature heat treatment equipment. In 2025, it customized a 1700℃ ultra-high temperature vacuum atmosphere furnace with a ultimate vacuum ≤ 5×10⁻⁴ Pa and an effective chamber size of 500×500×600 mm. The equipment is applied to the densification sintering of silicon nitride-based ceramics under 1650℃ nitrogen atmosphere and grain boundary regulation experiments of MAX phase materials in vacuum environments, supporting key national new material R&D projects. In addition, multiple sets of 1600℃ high-temperature vacuum atmosphere sintering furnaces (60L) have been procured for material sintering experiments under various protective atmospheres.EbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere Furnac
EbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere Furnac
To expand the selection of advanced heat treatment equipment and keep abreast of the latest technological developments, research representatives from the School of Materials Science and Engineering conducted an on-site factory visit to our company in April 2026. They focused on investigating our technical strengths and manufacturing capabilities in vacuum furnaces, tube furnaces, atmosphere furnaces, bogie furnaces and other heat treatment equipment, laying a foundation for subsequent laboratory equipment procurement and in-depth industry-university-research cooperation.
II. Visiting Schedule
In mid-September, our technical and marketing teams warmly received the Tsinghua University delegation at our factory. A welcoming exchange meeting was held in the conference room, where our technical director comprehensively introduced the company’s development history, product portfolio, core technological advantages, and latest R&D achievements in vacuum heat treatment, high-temperature sintering and atmosphere control technology.EbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere Furnac
The visiting professors shared the school’s latest research progress and equipment demands in new ceramic materials, new energy battery materials, functional thin film materials and other key areas. Both sides conducted in-depth technical exchanges and project docking targeting current research needs and future laboratory construction plans of the university.
Core Research Directions & Equipment Demands
1. New Ceramic Materials & Advanced Preparation Technology The State Key Laboratory of New Ceramics and Fine Processing of Tsinghua University is the only national key laboratory under the Ministry of Education dedicated to high-performance ceramic research and talent cultivation. The customized 1700℃ ultra-high temperature vacuum atmosphere furnace is widely used for the densification sintering of silicon nitride ceramics and vacuum grain boundary modification of MAX phase materials.EbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere FurnacEbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere Furnac2. New Energy Battery Materials & Electrochemical Energy Storage Tsinghua University boasts a number of leading research teams in new energy battery materials. Their research covers core processes such as solid electrolyte sintering, cathode material heat treatment and anode material carbonization, creating an urgent demand for high-precision temperature-controlled, high-vacuum and atmosphere-adjustable tube furnaces, box atmosphere furnaces and vacuum furnaces.EbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere FurnacEbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere Furnac3. Functional Thin Film & Low-Dimensional Materials Key research areas of the Key Laboratory of Advanced Materials include thin film materials and devices, as well as the preparation, structure and performance research of nano and low-dimensional materials. Related processes such as CVD, PVD substrate heating, thin film annealing and atmosphere heat treatment require multi-zone tube furnaces and rapid annealing furnaces.EbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere FurnacEbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere Furnac4. Nuclear Materials & Extreme Condition Materials With a specialized Nuclear Materials Research Institute, the school’s research also covers nuclear industry application materials. Nuclear fuel cycle and materials is listed as a national key discipline. Relevant research on solidification of nuclear waste and nuclear fuel component preparation puts forward special requirements for high-temperature high-vacuum sintering furnaces.
Key Equipment Series Introduced During the Exchange
1. Heat Shield Vacuum Furnace Series Ultimate vacuum: up to 6.67×10⁻³ Pa; maximum working temperature: 1400℃; customized chamber size available. Suitable for vacuum sintering of new ceramics, nuclear waste solidification treatment, cemented carbide sintering and metal vacuum heat treatment. Equipped with a multi-section programmable temperature control system and excellent temperature field uniformity, it meets the high-precision process requirements of national key scientific research projects.EbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere FurnacEbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere Furnac2. Multi-Zone Tube Furnace Series Configured with 2 to 5 independent heating zones with separate PID control and gradient temperature setting; temperature control accuracy: ±1℃. Ideal for functional gradient material synthesis, CVD thin film deposition and continuous multi-step reactions, perfectly matching the university’s research on thin film preparation and advanced ceramic synthesis.EbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere FurnacEbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere Furnac3. Tilting & Rotary Tube Furnace Series Adjustable inclination (0–10°) and rotating speed (0–15 rpm). Materials achieve compound motion of tumbling and axial movement, suitable for continuous drying, calcination and heat treatment of powder materials. Widely applied in cathode precursor processing, mineral calcination and catalyst activation.EbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere FurnacEbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere Furnac4. Atmosphere Muffle Furnace Series Fully sealed chamber design, supporting the injection of Ar, N₂, O₂, H₂ and other atmospheres; oxygen content controlled at ppm level. Designed for oxidation-reduction sensitive battery material sintering and thin film heat treatment, fully compatible with the demands of new energy battery research teams.EbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere FurnacEbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere Furnac5. Atmosphere Bogie Furnace Series Max working temperature: 900℃; compatible with inert and reactive atmospheres. The bogie loading design supports mass production and has mature applications in battery thin film sintering. Customized chamber dimensions and atmosphere systems are available.
III. Client Feedback & Future Cooperation
"We have gained fruitful insights from this on-site investigation. Our school carries out extensive cutting-edge research on new ceramics, new energy battery materials and functional thin films, with highly specialized and stringent requirements for vacuum heat treatment equipment.EbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere Furnac
EbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere Furnac
Your company features standardized workshop management and sophisticated manufacturing techniques. The technical team provided targeted equipment configuration solutions and professional technical suggestions on-site according to our material characteristics and process requirements, impressing us greatly with outstanding professionalism and efficient response.EbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere Furnac
EbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere Furnac
In particular, the technical indicators and manufacturing quality of your heat shield vacuum furnaces and multi-zone tube furnaces are highly aligned with our research demands, with remarkable performance in vacuum degree and temperature field uniformity.EbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere Furnac
EbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere Furnac
We look forward to establishing long-term and stable cooperative relations with your company, jointly promoting technological innovation and application of advanced material heat treatment, and launching diversified industry-university-research cooperation for major national scientific research projects."EbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere Furnac
EbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere Furnac
— Representative, Research Team,School of Materials Science and Engineering, Tsinghua UniversityEbSMuffle Furnace,Tube Furnace,Vacuum Furnace,Atmosphere Furnac
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