Established in November 2010, CNTIFACTORY has rapidly grown into a prominent player in the non-ferrous metal industry. With a registered capital of 120 million RMB and total assets of 280 million RMB, the company is dedicated to the research, development, production, sales, and independent import/export of titanium and titanium alloy materials. As a recognized high-tech enterprise, we demonstrate our commitment to innovation by investing 10% of our total sales revenue annually into research and development.
Our extensive product portfolio includes a wide range of high-quality materials and components:
Ingots: Various specifications of cast ingots.
Bars: Precision-forged titanium bars.
Tubes: High-strength, high-toughness titanium alloy tubes.
Forgings: High-performance titanium and titanium alloy special-shaped shaft forgings and ring forgings.
Machined Parts: Custom titanium alloy machined components.
Our forging capabilities are substantial, with an annual production capacity of up to 15,000 tons for titanium alloys, zirconium alloys, nickel alloys, and superalloys. We produce over 100 different alloy grades, including 60 distinct titanium alloy grades, showcasing our comprehensive material expertise.
These advanced materials are critical for various high-stakes applications, including:
Weaponry and Equipment: Providing essential components for defense industries.
Petroleum and Deep-Sea Engineering: Offering durable solutions for challenging offshore and subsea environments.
Aerospace: Supplying lightweight and robust materials for aircraft and spacecraft.
Medical Devices: Delivering biocompatible and high-performance materials for medical implants and instruments.
Our commitment to technological advancement is exemplified by our full-chain titanium and titanium alloy product project for high-end equipment. Located in the southwest section of Chanfeng Road, Baoji Geely Automobile Industrial Park, this project spans 87 acres with a total investment of 320 million RMB. The facility encompasses:
Melting Workshop: Equipped with advanced vacuum consumable arc furnaces (two 3T, two 6T, and two 15T units), electrode presses, and mixing/feeding systems, boasting a melting capacity of 5,000 tons of titanium alloy ingots annually.
Forging Workshop: Featuring 1000T, 4500T, and 6300T fast forging machines, as well as three complete radial forging production lines (GFM SX45, GFM SX25, and SX16 from Austria), enabling an annual production of 5,000 tons of bars and 2,000 tons of titanium and titanium alloy forgings and rings.
Precision Machining Workshop: Housing horizontal and vertical machining centers, CNC lathes, CNC milling machines, high-precision surface grinders, and sawing machines for intricate component manufacturing.
Sheet Metal Workshop: For specialized fabrication.
Quality Inspection and Experiment Center: Equipped with ultrasonic flaw detectors, ultrasonic thickness gauges, coordinate measuring machines (CMM), surface roughness testers, spectrometers, and metallographic microscopes to ensure stringent quality control.
Comprehensive Office Building: Supporting administrative and operational functions.
Upon full operation, this project will achieve a production capacity of:
5,000 tons of titanium alloy ingots per year.
5,000 tons of titanium bars per year.
1,000 tons of medium and high-strength titanium alloy tubes per year.
2,000 tons of titanium and titanium alloy forgings and rings per year.
20,000 pieces of deep-processed products per year.
This integrated production capability positions us to provide critical raw materials, forgings, and finished products for the weaponry industry, marine engineering, aerospace, petroleum, and medical equipment sectors. Our manufacturing processes and technical equipment are designed to meet international advanced and domestic leading standards.
Since its inception, CNTIFACTORY. has achieved significant milestones:
2010-2012: Established in November 2010. By June 2012, small precision forged titanium bars entered mass production.
2013-2014: Successfully produced titanium alloy pressure hulls for marine equipment, marking our entry into the marine engineering field. Obtained confidentiality qualifications for weapons and equipment research and production units, officially entering the military material sector. To meet growing market demand, we initiated the construction of a new plant and acquired a second phase production line. Completed equipment installation and commissioning, commencing large-scale titanium alloy bar production. Simultaneously, began research into tube processing technology, defining new development directions.
2015-2016: Recognized as a specialized, refined, unique, and new
("Little Giant") enterprise by the Ministry of Industry and Information Technology. Successfully selected into Shaanxi Province's
Invisible Champion Cultivation Database. Acquired 87 acres of land in the Science and Technology New City, investing 320 million RMB to establish Baoji Baotai Precision Forging Co., Ltd. Secured tens of millions of RMB in Series A funding from Zhizhuo Capital/Baoji Municipal Science and Technology Innovation Fund. Formed a strategic partnership with Baotai Group, a listed company. * 2017-2018: Obtained weapons and equipment quality certification system certification and weapons research and production license. High-strength, high-toughness titanium alloy tubes were successfully applied in the weaponry field. Established CNTIFACTORY Industry Xi'an Branch to research and develop the localization of non-titanium projects for the weaponry industry. * 2019-2021: Recognized as a specialized, refined, unique, and new ("Little Giant") enterprise by the Ministry of Industry and Information Technology. Successfully selected into Shaanxi Province's Invisible Champion Cultivation Database. Acquired 87 acres of land in the Science and Technology New City, investing 320 million RMB to establish Baoji Baotai Precision Forging Co., Ltd. Secured tens of millions of RMB in Series A funding from Zhizhuo Capital/Baoji Municipal Science and Technology Innovation Fund. Formed a strategic partnership with Baotai Group, a listed company.
Our commitment to quality and innovation is underpinned by a robust set of enterprise qualifications and a strong intellectual property portfolio:
Aerospace Certification: Demonstrating compliance with stringent aerospace industry standards.
BV Company Certification: A testament to our adherence to international quality and safety management systems.
Intellectual Property Management System Acceptance Certificate: Highlighting our systematic approach to managing and protecting intellectual assets.
Baoji City Characteristic Brand Product: Recognition of our unique and high-quality products within the local industry.
High-Tech Enterprise: A designation affirming our continuous innovation and advanced technological capabilities.
Shaanxi Province Private Economy Transformation and Upgrade Demonstration Enterprise: Acknowledging our role as a leader in economic transformation and industrial upgrading within the province.
Our dedication to R&D has resulted in significant intellectual property, including:
4 Invention Patents: Showcasing our groundbreaking innovations in material science and processing.
2 Industry Standards: Contributing to the establishment of best practices and quality benchmarks within the industry.
13 Enterprise Standards: Reflecting our internal commitment to rigorous quality control and operational excellence.
24 Utility Model Patents: Protecting our practical innovations and improvements in product design and manufacturing processes.
This comprehensive set of qualifications and intellectual property rights underscores CNTIFACTORY's position as a technologically advanced and reliable partner in the high-end metal materials sector.
CNTIFACTORY boasts over 100 sets of advanced equipment, forming the backbone of our high-precision manufacturing capabilities. Our state-of-the-art machinery ensures the production of superior quality products with exceptional efficiency and precision.
Melting Equipment:
Six vacuum consumable arc furnaces (two 3-ton, two 6-ton, and two 15-ton units) with a combined annual capacity of 5,000 tons.
7000T electrode press and advanced mixing and feeding systems.
Forging Equipment:
1000T, 4500T, and 6300T fast forging machines, enabling rapid and efficient material shaping.
Three complete radial forging production lines (GFM SX45, GFM SX25, and SX16) imported from Austria, providing unparalleled precision and flexibility in forging complex geometries.
Precision Machining Equipment:
Horizontal and vertical machining centers for versatile and accurate component fabrication.
CNC lathes and CNC milling machines for high-precision turning and milling operations.
High-precision surface grinders and sawing machines for finishing and material preparation.
Inspection and Testing Equipment:
Ultrasonic flaw detectors and ultrasonic thickness gauges for non-destructive testing and material integrity assessment.
Coordinate measuring machines (CMM) for highly accurate dimensional measurements.
Surface roughness testers, spectrometers, and metallographic microscopes for comprehensive material analysis and quality assurance.
This extensive array of advanced equipment, combined with our skilled workforce, enables CNTIFACTORY to maintain a leading edge in the production of high-performance metal materials and components. Our continuous investment in cutting-edge technology ensures that we consistently deliver products that meet the most demanding industry standards and customer expectations.
CNTIFACTORY is at the forefront of material science and processing technology, particularly in the development and production of medium and high-strength titanium alloy tubes. Our core competencies are built upon innovative research and proprietary manufacturing processes.
Traditional methods for producing medium and high-strength titanium alloys such as TC4, TC11, TA15, and TC18 often involve forging bars followed by machining (deep hole drilling). This approach is characterized by low material utilization and long production cycles due to the high degree of alloying and the difficulty in cold deformation. The deformation resistance of titanium alloys further limits the applicability of conventional tube processing methods for these high-strength alloys.
To overcome these challenges, Top Titanium has developed an innovative forging-based production method for high-strength titanium alloy tubes. This breakthrough technology, protected by a national invention patent titled "Processing Method for TC4 Thick-Walled Tubes," has enabled us to establish corresponding enterprise standards and cultivate a team of experts in high-strength alloy tube production. The key process involves:
Oblique Rolling Piercing + Radial Forging: This unique combination increases the deformation amount in the alpha+beta two-phase region of titanium alloys.
Controlled Total Forging Ratio: By precisely controlling the total forging ratio, we achieve uniform microstructure and consistent mechanical properties throughout the tube.
Compared to other tube manufacturing processes, our method offers significant advantages:
Simplified Forming: Requires only a single forming device, reducing tooling costs.
High Dimensional Accuracy: Achieves superior control over the inner and outer diameter tolerances of forged tubes (outer diameter ±1 mm, inner diameter ±0.7 mm).
Versatility: The same radial forging machine can produce tubes of different outer diameters by simply changing the hammer tools.
Breakthrough in High-Strength Alloys: This technology breaks the limitations of traditional titanium and titanium alloy tube manufacturing methods, enabling the production of high-strength, high-toughness titanium alloy tubes.
This innovative approach allows us to produce titanium and titanium alloy tubes with uniform microstructure and performance, low ultrasonic flaw detection noise, and dimensions ranging from Φ90 to 350mm in outer diameter, 10 to 105mm in wall thickness, and up to 10,000mm in length (after forging). This technological advancement significantly enhances our capability to provide cutting-edge materials for demanding applications.
Our high-performance titanium and titanium alloy products are integral to a wide array of critical applications across various industries. We provide essential materials and components that contribute to the reliability and efficiency of advanced systems.
We supply fundamental forms of titanium and its alloys, including:
Stepped Shafts, Titanium Bars, and Titanium Cakes: Versatile raw materials for further processing.
High-Performance Titanium and Titanium Alloy Rings: Used in applications requiring high strength and specific geometries.
Our products are deployed in diverse and demanding environments:
Marine Engineering:
All-Titanium Underwater Winches: Demonstrating superior corrosion resistance and strength in harsh marine conditions.
Sediment Traps: Critical components for oceanographic research and environmental monitoring.
Aerospace:
Aerospace Gas Cylinders: Lightweight and robust solutions for critical aerospace systems.
Weaponry Field:
Light Recoilless Guns: Contributing to the performance and durability of defense equipment.
Rear End Forging Blanks and Nozzle Blanks: Essential components for missile systems.
Series of Air-to-Ground Missile Engine Tail Nozzle Devices: Showcasing our capability in complex, high-precision parts.
Solid Rocket Engine Combustion Casings for General-Purpose Missiles: Providing high-strength containment for propulsion systems.
Solid Rocket Engine Combustion Casings for Light Air-to-Ground Missiles: Tailored solutions for specific missile platforms.
Flame Tubes: Critical components for jet engines.
Integrally Machined Engine Diffusers and Integrally CNC Machined Compressor Impellers: High-precision parts for turbojet engines.
Carbon Fiber:
Our expertise extends to carbon fiber thermal protection, where we have developed comprehensive capabilities in:
This integrated approach allows us to provide complete sets of thermal protection components for solid rocket engines. Our carbon fiber molded products have been successfully applied in engine test trials for various defense industry entities, including the weaponry industry, China Aerospace Science and Industry Corporation, China Aerospace Science and Technology Corporation, and China State Shipbuilding Corporation Limited.
Molding and Forming: Precision molding techniques.
Fabric Tape Winding: Advanced winding processes.
Bonding and Curing: Ensuring structural integrity.
Non-Metallic Machining: Specialized machining for composite materials.
Assembly and Debugging: Integrated system assembly.
Testing and Analysis: Rigorous performance validation.
Non-Destructive Testing: Ensuring material quality without damage.
Lightweight High-Series Subframes:
Subframes for Armored Vehicles: Contributing to enhanced mobility and protection.
Upper and Lower Control Arms for Combat Vehicles: Essential suspension components for demanding operational environments.
Our ability to deliver high-performance products stems from our expertise in overcoming complex manufacturing challenges:
Air-to-Ground Missile Series Engine Tail Nozzle Device:
Challenge: Machined from titanium bar, the cylindrical body features a large diameter change ratio, thin walls (1.2mm thickness), making it prone to deformation and chatter during machining. Strict geometric tolerance requirements further complicate the process.
Solution: Through precise control of machining processes, we successfully manage deformation and achieve the required dimensional and geometric tolerances, ensuring smooth delivery and high customer satisfaction.
Lightweight High-Series Subframe:
Challenge: Composed of over 400 parts, requiring extensive welding, leading to significant welding deformation. The overall vehicle model demands strict dimensional accuracy, and material bending and forming are challenging.
Solution: Our advanced welding techniques and assembly processes minimize deformation, ensuring the final product meets stringent dimensional and structural requirements.
Light Air-to-Ground Missile Solid Engine Combustion Casing:
Challenge: The product has a considerable length with a thin overall wall (1.2mm) and tight geometric tolerances (within 0.05mm). Large deformation during processing makes it difficult to achieve high surface roughness, and the integrated forming of the bottom wing lug connection is complex.
Solution: We employ specialized machining strategies and process controls to manage deformation, achieve the desired surface finish, and ensure the integrity of complex integrated features.
Turbojet Engine Components (Flame Tube, Integrally Machined Diffuser, Integrally CNC Machined Compressor Impeller):
Challenge: These parts demand extremely high precision (within 0.01mm). Internal components are small and connected by welding, requiring high assembly accuracy.
Solution: Our precision machining capabilities and meticulous assembly procedures ensure that these critical engine components meet the most stringent accuracy requirements.
In all these cases, our rigorous process control during machining and manufacturing has enabled us to overcome these difficulties, deliver products that meet design specifications, and achieve high customer satisfaction.
CNTIFACTORY is committed to a clear development strategy focused on core business growth, strategic adjustments in non-core areas, and targeted breakthroughs in key industries. Our vision for the next decade is to solidify our position as a leader in the high-end metal materials sector.
Core Business Focus and Breakthroughs: We will concentrate on the physical manufacturing of titanium and titanium alloys as our primary business. This involves:
Vertical Expansion: Expanding the production of large-diameter forged titanium materials.
Deepening and Refining: Enhancing our capabilities in deep processing and refining titanium products for weaponry, aerospace, new energy, and deep-sea oil equipment.
Strengthening: Reinforcing our position as a strong and precise supplier in these critical sectors.
Achieving Industrial Closed-Loop: Establishing a self-sufficient industrial chain for our core products.
Non-Core Business Adjustment: Strategically re-evaluating and adjusting non-core business segments to optimize resource allocation and enhance overall efficiency.
Key Industry Breakthroughs: Targeting specific high-growth and high-value industries for focused development and market penetration.
During the 14th Five-Year Plan period, we aim to achieve significant horizontal breakthroughs by mastering at least three core technologies in non-titanium fields. This initiative will enable localized substitution of imported materials and technologies, creating a synergistic effect with our primary titanium alloy business. By doing so, we will further enhance our core competitiveness and realize our corporate goal of "Top Titanium, Achieving Success Everywhere" .
CNTIFACTORY prides itself on a highly experienced and dedicated team, comprising visionary founders, a strong core technical team, and a network of esteemed external experts. This collective expertise drives our innovation and operational excellence.
Wang Yongjin (Chairman): From 1997 to 1999, Mr. Wang taught at Fuzhou Changle Middle School. In 2000, he pursued studies in Germany, graduating with a degree in Business Administration. He started his own business in Germany in 2003 before returning to China in 2010 to co-found CNTIFACTORY Mr. Wang possesses extensive management experience, a broad international perspective, and strong entrepreneurial and innovative capabilities.
Wang Yonggen (General Manager): From 1993 to 2009, Mr. Wang worked at Anhui Wuhu Iron and Steel Co., Ltd., serving successively as Workshop Director, Production Manager, and Vice President of Production. With over 20 years of experience in the non-ferrous metals industry, he brings rich on-site management and grassroots operational experience. In 2010, he co-founded CNTIFACTORY with Mr. Wang Yongjin.
Dong Jie (Chief Engineer, Deputy General Manager): A Senior Engineer with a Master's degree in Materials Engineering from Xi'an University of Architecture and Technology. Ms. Dong has over 20 years of experience in titanium alloy processing, specializing in the research of melting and forging processes for titanium and titanium alloys, new product and process development, and the application for technology transformation and scientific research projects. Her notable projects include:
Ms. Dong has received two second-class and two third-class provincial/ministerial level scientific and technological achievement awards, holds four patents, and has published nine papers. She has also drafted five national military standards, two national standards, two occupational appraisal standards, and three enterprise standards. Furthermore, she has collaborated with multiple research institutions and application units on the development and application of forging processes for various grades of titanium alloy seamless tubes. She possesses strong capabilities in managing large-scale scientific research projects.
Development of large-sized FSP for large power generation titanium alloys and large-scale TC4 titanium alloy bars.
Development of large-scale TB6 titanium alloy bars.
Research on forging processes for large-scale TC11 alloy bars.
Development of large-scale TA7 titanium alloy bars.
Research on forging processes for large-scale cakes and rings.
Research on forging processes for new products such as high-strength titanium alloy seamless tubes and titanium alloy stepped shafts.
We collaborate with leading experts in the field to enhance our research and development capabilities:
Song Jin (External Expert): A Master of Materials Engineering and Senior Engineer, formerly the Director of the Baotai Group Laboratory and a materials science expert. He enjoys special government allowances from the State Council for his outstanding contributions. Mr. Song has participated in numerous national-level scientific research projects on titanium and titanium alloy materials and has published over 20 professional papers in national journals.
Huang Yongguang (External Expert): A Master of Materials Engineering and Senior Engineer, with 35 years of experience specializing in titanium alloy standards. He has led and participated in 64 standards and received the "Non-ferrous Metal Standardization Lifetime Achievement Award." Currently, he is engaged in titanium material standardization work at Top Titanium Industry.
Ye Wenjun (External Expert): Holds a Ph.D. and is a Senior Engineer, currently serving as a section chief at the State Key Laboratory of Non-ferrous Metal Material Preparation and Processing. Dr. Ye has 23 years of experience in basic research on non-ferrous metals. He provides technical support and tooling/mold support for Top Titanium's research projects.
Zhai Yuewen (External Expert): Holds a Ph.D. and is a Senior Engineer, currently serving as the Deputy Director of the New Materials and Advanced Forming Technology Institute at Beijing Institute of Electromechanical Research. Dr. Zhai collaborates with Top Titanium Industry on research into titanium alloy die forging technology.
This robust team structure, combining internal talent with external expertise, ensures that CNTIFACTORY remains at the cutting edge of material science and engineering, continuously pushing the boundaries of innovation and delivering exceptional value to our customers.
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