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Thin-Walled Niobium-Titanium Capillary Tubing: Characteristics of Niobium-Titanium Alloy
The Double-Edged Sword of Thin-Walled Capillary Tubing Processing. Niobium-titanium alloy is a preferred material for high-end capillary tubing due to its unique combination…
Thin-Walled Niobium-Titanium Capillary Tubes: Magnetic Levitation Guidance
The High-Tech Mandrel Positioning for Thin-Walled Niobium-Titanium Capillary Tubes. In the processing of thin-walled niobium-titanium capillaries, besides controlling wall thickness …
Thin-Walled Niobium-Titanium Capillaries: The Challenge of Micron-Level Wall Thickness Uniformity
In the processing of niobium-titanium capillaries, reducing wall thickness means exponentially increasing precision requirements. When the conventional 1mm wall thickness drops below 0.1mm …
Upgrades in pure Niobium Wire production technology are driving industry development
Continuous advancements in pure Niobium Wire production technology have significantly driven industry development. In terms of raw material purification, the application …
Pure Niobium Wire holds promising prospects in industrial processing
Due to its unique physical and chemical properties, pure niobium wire exhibits promising development prospects in industrial processing. In the aerospace sector …
Collaborative Development of the Tantalum Materials Industry
The tantalum materials industry is building a collaborative ecosystem across the entire supply chain, from mineral production to application. To ensure resource security, China's five major tantalum …
Tantalum Material Capacity Planning and Expansion
Tantalum material capacity construction is entering a phase of large-scale expansion. The total investment in the private placement project exceeds 1.2 billion yuan …
Tantalum Material Market Application Expansion
Tantalum material market penetration is booming across multiple sectors. In the electronics and information industry, demand for automotive-grade tantalum capacitors is surging …
Tantalum Material Product Expansion
The tantalum material product portfolio is expanding from basic categories to high-end applications. In the semiconductor materials field, the 5N9 (99.9995%) ultra-high-purity tantalum target …
Innovations in Tantalum Material Production Processes
Iterative upgrades in tantalum material production processes are fundamentally changing the industry landscape. Traditional tantalum ore extraction relies on multiple chemical precipitation steps …
Titanium Powder Technology Upgrades Drive Application Expansion
Technological upgrades are driving the continued expansion of titanium powder 3D printing applications. New aerosolized titanium powder production technology reduces powder …
Titanium powder offers a new corrosion-resistant solution for energy equipment
Titanium powder 3D printing provides a new corrosion-resistant solution for energy equipment. In oil drilling and nuclear power equipment, components must withstand high …
Titanium Powder's Lightweight Revolution in the Automotive Industry
Titanium powder 3D printing will drive a lightweight revolution in the automotive industry. New energy vehicles urgently need to reduce weight and fuel consumption …
Titanium powder offers a new level of precision in medical implants
Titanium powder 3D printing offers the prospect of a more precise upgrade in medical implants. Titanium powder exhibits excellent biocompatibility. Combined with 3D printing technology …
Titanium powder performance breakthroughs in aerospace
Titanium powder 3D printing demonstrates tremendous potential in the aerospace sector. Aerospace components demand stringent material strength, corrosion resistance …
Challenges and Prospects of Tantalum Foil's Medical Applications
Although tantalum foil holds a bright future in the medical field, it also faces several challenges. First, tantalum ore resources are relatively scarce, and mining …
Tantalum foil holds broad market prospects in the medical market
With the aging of the global population and a growing emphasis on healthcare, demand for medical devices continues to grow, creating a vast market opportunity for the development …
3D Printing Empowers Innovation in Tantalum Foil Medical Applications
The rise of 3D printing technology has injected significant vitality into the medical application of tantalum foil. Tantalum foil has a high melting point and is difficult to process …
Current Status and Future Development of Tantalum Foil's Medical Applications
Tantalum foil has already seen numerous successful applications in the medical field. In orthopedics, bone screws, bone plates, and other fixation devices made of …
Tantalum Foil's Biocompatibility Lays the Foundation for Medical Applications
Tantalum foil's rise to prominence in the medical field stems from its exceptional biocompatibility. As a rare metal, tantalum is stable in the human body and …
Future Trends and Challenges of Medical Applications of Niobium-Titanium Alloys
The development of niobium-titanium alloys is showing three major directions:
1. Material composites: Combining niobium-titanium alloys with bioceramics (such as hydroxyapatite) …Technological innovation of Niobium-Titanium alloy in dental restoration
The application of niobium-titanium alloy in the dental field has broken through the limitations of traditional materials. Its low elastic modulus (50-60 GPa) …
Superconducting applications of Niobium-Titanium Alloys in medical devices
The superconducting properties of niobium-titanium alloys make them the core material of high-end medical equipment. In magnetic resonance imaging (MRI) …
Innovative breakthroughs in Niobium-Titanium Alloys in orthopedic implants
The application of niobium-titanium alloys in orthopedics is developing from traditional fixation devices to intelligent ones. Low elastic modulus design is its core advantage …
Biocompatibility and medical application basis of Niobium-Titanium Alloy
Niobium-titanium alloy (Nb-Ti) has become an ideal material in the medical field due to its unique physical and chemical properties. Its core advantage lies in biocompatibility …
Sealing and thermal protection system of niobium-titanium alloy in extreme environments
The sealing performance of niobium-titanium alloy in high temperature, high pressure and ultra-low temperature environments is particularly outstanding …
Niobium-titanium alloy revolutionizes manufacturing of complex parts driven by 3D printing technology
The combination of 3D printing technology and niobium-titanium alloy has completely changed the manufacturing paradigm of aviation parts …
Innovative application of niobium-titanium alloy in avionics and electromagnetic shielding
Niobium-titanium alloy has shown irreplaceable advantages in avionics equipment due to its unique electromagnetic compatibility and thermal stability …
Can the porosity be reduced by adjusting the grain size?
The porosity in high-temperature titanium alloy foil can indeed be reduced to a certain extent by adjusting the grain size. The specific reasons and mechanisms are as follows …
Which process parameters can effectively inhibit the formation of holes?
The process parameters that effectively inhibit the formation of holes in high-temperature titanium alloy foil mainly include …
How to reduce holes in high-temperature titanium alloy foil through process optimization
The main methods to reduce holes in high-temperature titanium alloy foil through process optimization include …
Methods for improving the performance of high-temperature titanium alloy foil in existing technologies
The methods for improving the performance of high-temperature titanium alloy foil in existing technologies mainly include the following aspects …
Breakthroughs in the new application of high-performance titanium alloy foil in aerospace vehicles
The breakthroughs in the new application of high-performance titanium alloy foil in aerospace vehicles are mainly reflected in the following aspects …
Photovoltaic and solar thermal: the cornerstone of corrosion resistance and efficient energy conversion
In the field of photovoltaic and solar thermal power generation, tantalum materials have become the core components of key equipment due to their strong corrosion resistance …
Nuclear energy and energy storage: core materials resistant to extreme environments
Tantalum has become a key support for nuclear energy equipment and efficient energy storage systems due to its radiation resistance, high temperature stability …
Fuel cells and water electrolysis: Tantalum-based catalysts break through the durability bottleneck
In the field of proton exchange membrane fuel cells (PEMFC) and water electrolysis hydrogen production (PEM-WE), tantalum …
Solid-state batteries: Tantalum-doped electrolytes revolutionize energy density and safety
The breakthrough application of tantalum materials in the field of solid-state batteries focuses on the research and development of oxide solid electrolytes …
Will the increase in the hardness of titanium alloys lead to a significant decrease in fracture toughness?
The increase in the hardness of titanium alloys usually leads to a significant decrease in fracture toughness, which is mainly due to the essential contradiction between …
Optimizing the toughness of titanium alloys by combining hardness and microstructure
The key to optimizing the toughness of titanium alloys by combining hardness and microstructure is to finely control the phase composition, proportion and morphology …
Can the hardness change of high-strength titanium alloy predict its fracture toughness?
It is difficult to directly and accurately predict the fracture toughness of high-strength titanium alloys based on the hardness change for the following reasons…
Relationship between the hardness of titanium alloy and its tensile strength
There is a certain correlation between the hardness of titanium alloy and its tensile strength, but this relationship is not very close, as shown below…
The relationship between the hardness and strength of titanium alloys
The relationship between the hardness and strength of titanium alloys is rather special. Unlike steel materials, the hardness and strength of titanium alloys do not show…
How much does the enhanced superconductivity of niobium-titanium alloy affect the thermal stability of capillaries under high pressure conditions?
Under ultra-high pressure conditions, the superconductivity of niobium-titanium alloys shows extremely strong stability and enhanced characteristics, and its superconducting…
How will the effect of ultra-high pressure on the superconducting transition temperature of niobium-titanium alloy change the capillary performance?
The effect of ultra-high pressure on the superconducting transition temperature of niobium-titanium alloy significantly improves its superconducting performance.…
Will high temperature and high pressure conditions cause the performance of superconducting niobium materials to decline and affect the application of capillaries?
According to the latest research, superconducting niobium-titanium alloys can still maintain superconductivity under extremely high pressure (up to 261.7GPa)…
How does the performance stability of superconducting niobium materials under high temperature and high pressure environment affect the application of capillaries
The performance stability of superconducting niobium materials under high temperature and high pressure environment affects its application as a capillary material mainly in…
Is the performance of superconducting niobium materials under high temperature and high pressure suitable for use as capillary materials?
The performance of superconducting niobium materials (especially niobium-titanium alloys) under high temperature and high pressure environments makes them suitable as capillary materials…
Key application areas of titanium in 3D printing
1. Aerospace:
o Engine components (blades, blades, fuel nozzles, brackets).
o Aircraft structural parts (brackets, hangers, door parts) …Challenges and difficulties of titanium materials in 3D printing
1. High cost:
o Titanium metal powder is expensive.
o Equipment purchase and maintenance costs are high …Titanium as a common material for 3D printing
• Ti-6Al-4V (Grade 5): The absolute workhorse! It accounts for the vast majority of titanium alloy 3D printing applications. It provides a good balance of strength, toughness …
Why choose titanium alloy for 3D printing materials?
1. Excellent strength-to-weight ratio: The density of titanium alloy (about 4.5 g/cm3) is much lower than that of steel (about 7.8 g/cm3), but its strength is comparable or even higher …
Corrosion resistance of 3D printed titanium alloys in engine parts
3D printed titanium alloys have excellent corrosion resistance in engine parts, which is specifically reflected in the following aspects …
3D printing titanium alloy improves engine durability
The main ways to improve engine durability by 3D printing titanium alloy include:
• Optimizing microstructure: By adding specific elements (such as molybdenum, iron, etc.) to regulate …Advantages of 3D printed titanium alloys in engine parts
The advantages of 3D printed titanium alloys in aviation engine parts are mainly reflected in the following aspects …
Application of 3D printed titanium alloys in specific aircraft parts
The specific applications of 3D printed titanium alloys in aircraft parts mainly include:
• Aircraft structural parts: such as fuselage load-bearing components, wing structural parts, etc …Specific applications of 3D printed titanium alloys in the aerospace field
The specific applications of 3D printed titanium alloys in the aerospace field mainly include the following aspects …
Corrosion resistance of niobium titanium capillary under different environmental conditions
The corrosion resistance of niobium titanium capillary shows strong stability under different environmental conditions, as follows …
How does the corrosion resistance of niobium titanium capillary affect its service life?
The corrosion resistance of niobium titanium capillary is one of the key factors affecting its service life for the following reasons …
Mechanical properties of niobium titanium capillaries compared with other materials
The mechanical properties of niobium titanium capillaries have significant advantages over other materials …
Main material advantages of niobium titanium capillary
The main material advantages of niobium titanium capillary include:
• High strength and good plasticity: Niobium titanium alloy has high strength and good plasticity …New Developments in the Application Fields of Niobium Titanium Capillaries
The application fields of niobium titanium capillaries have indeed seen new developments in recent years, mainly in the following aspects …
Production process of niobium titanium capillary tube
The production process of niobium titanium capillary tube mainly includes the following key steps:
1. Extrusion to make tube billet …How to ensure the high temperature resistance of tantalum capacitors
The high temperature resistance of tantalum capacitors is mainly guaranteed by a process called "aging", which is a dynamic aging process in which different voltages are applied in stages under high temperature …
Main advantages of tantalum capacitors
The main advantages of tantalum capacitors include:
• Long life: Tantalum capacitors have unique self-healing properties, which can automatically repair …In which fields are tantalum capacitors most widely used?
Tantalum capacitors are widely used in many fields due to their excellent performance of small size, large capacity, low leakage current, high reliability and long service life, especially in the …
Main Trends in Tantalum Market Demand
• Steady Market Size Growth
The global tantalum market size is about 2.34 thousand tons in 2023, and is expected to reach 2.46 …Specific application of tantalum capillaries in orthopedic implants
Tantalum capillary exhibits excellent performance under high temperature conditions, which is mainly reflected in the following aspects …
Specific application of tantalum capillaries in orthopedic implants
The specific application of tantalum capillaries in orthopedic implants is mainly reflected in the manufacture of porous tantalum implants and their surface bioactive modification …
Application of Tantalum Capillaries in Medical Devices
The application of tantalum capillaries in the field of medical devices is mainly based on the excellent biocompatibility, corrosion resistance and mechanical properties of tantalum metal …
Application of Tantalum Capillary in Chemical Industry
The application of Tantalum Capillary in chemical industry is mainly reflected in its excellent corrosion resistance, high melting point and good mechanical properties, including the following aspects …
Performance of Tantalum Capillary in Electrochemical Corrosion
The performance of Tantalum Capillary in electrochemical corrosion is mainly reflected in its excellent corrosion resistance. Tantalum is a metal with extremely high chemical stability, especially in acidic …
Durability of Tantalum Capillary in Corrosive Processes
The durability of Tantalum Capillary in corrosive processes is mainly reflected in its excellent corrosion resistance. Tantalum is a metal with extremely high chemical stability, especially in acidic environments …
Performance of Tantalum Capillary in Extremely Hot or Cold Environments
The performance of Tantalum Capillary in extremely hot or cold environments is mainly reflected in its excellent physical and chemical properties …
Main advantages of tantalum capillaries
The main advantages of tantalum capillaries include:
1. High melting point and high temperature resistance: Tantalum has a very high melting point (about 3017°C), which allows tantalum capillaries to …Challenges of C103 in additive manufacturing of space
The challenges of C103 niobium hafnium alloy in additive manufacturing of space mainly include the following aspects …
Ensuring the safety and reliability of C103 in space additive manufacturing
The safety and reliability assurance system of C103 niobium-hafnium alloy in space additive manufacturing includes the following key technical links …
Advantages of C103 in space additive manufacturing
The advantages of C103 niobium hafnium alloy in space additive manufacturing are mainly reflected in the following aspects …
Specific application of C103 in space additive manufacturing
The latest application of niobium-based alloy C103 in the field of space additive manufacturing is mainly focused on the manufacturing and material innovation of key components of spacecraft …
C103 latest progress on additive manufacturing
The latest progress of C103 niobium-based alloy in the field of additive manufacturing (AM) mainly involves the following aspects …
Innovative trends in the preparation process of tantalum targets
Innovative trends in the preparation process of tantalum targets include:
• Refined grain size The smaller the grain size of the target, the more uniform the thickness distribution …The main challenges of tantalum targets in integrated circuit manufacturing
The main challenges of tantalum targets in integrated circuit manufacturing include:
1. High purity requirements Integrated circuits have extremely high purity requirements for targets, and impurities will seriously affect the quality of thin films and performance …How tantalum targets improve the performance of integrated circuits
Tantalum targets improve the performance of integrated circuits in the following ways:
• Forming high-quality thin films Tantalum targets release tantalum atoms in a vacuum environment and deposit on the substrate material to form a uniform and precise thin film …Specific Applications of Tantalum in Integrated Circuit Manufacturing
• Barrier Layer Tantalum film is often used as a barrier layer material for copper interconnect structures in integrated circuits. Since copper easily diffuses with silicon, it will cause device failure …
Application of Tantalum Metal in the Electronics Industry
Applications of Tantalum Metal in the Electronics Industry include:
• Tantalum Capacitors Tantalum powder and tantalum wire are used to manufacture tantalum capacitors, accounting for 50%-70% of the world's tantalum consumption. Compared with other materials …Technical difficulties in maintaining strength of niobium-titanium alloy under high temperature conditions
The technical difficulties in maintaining strength of niobium-titanium alloy under high temperature conditions are mainly concentrated in the thermal stability, oxidation resistance, strength-toughness …
Mechanism of Niobium-Titanium Alloy Maintaining Strength under High Temperature Conditions
The mechanism of Niobium-Titanium Alloy maintaining strength under high temperature conditions is mainly reflected in three aspects: multi-element synergistic strengthening, phase structure stabilization…
The high strength of niobium-titanium alloy improves engine thrust
The high strength of niobium-titanium alloy (Nb-Ti) in turbine blades has the following effects on improving engine thrust…
High-temperature compressive strength of niobium-titanium alloy in turbine blades
Currently, the application of niobium-titanium alloy (Nb-Ti) in turbine blades is not common or widely mentioned. However, the methods of ensuring high-temperature compressive strength…
Specific applications of niobium-titanium alloys in aerospace technology
The specific applications of niobium-titanium alloys (Nb-Ti) in aerospace technology are mainly reflected in their superconductivity and high-temperature oxidation resistance. Although the application of…
Specific applications of titanium alloys in medical implants
Titanium alloys are widely used in the field of medical implants due to their excellent biocompatibility, corrosion resistance, high strength and elastic modulus similar to that of human bones. The main applications include…
The effect of titanium alloy's non-magnetic properties on magnetic detectors
The non-magnetic properties of titanium alloys give it significant advantages in environments with magnetic detectors…
The impact of the non-magnetic properties of titanium alloys on the safety of ships
The non-magnetic properties of titanium alloys have a significant impact on the safety of ships, especially in military applications, which is mainly reflected in the following aspects…
Corrosion resistance of titanium alloy in marine environment
Titanium alloy exhibits excellent corrosion resistance in marine environment, which makes it widely used in marine engineering. The corrosion resistance of titanium alloy is even better than that of…
Advantages of titanium alloys in shipbuilding
The advantages of titanium alloys in shipbuilding are mainly reflected in the following aspects:
1. Lightweight and high strength
The density of titanium alloy is about 4.5g/cm3. Although it is slightly heavier than aluminum…Why do different pore structures affect the fatigue strength of titanium alloys?
Different pore shapes in titanium alloys can affect fatigue strength due to several factors:…
How to reduce porosity in 3D printed titanium alloys through process optimization
To reduce porosity in 3D-printed titanium alloys through process optimization, consider the following strategies:…
Effect of pores on mechanical properties of 3D printed titanium alloys
The presence of porosity in 3D-printed titanium alloys can significantly impact their mechanical properties, especially fatigue performance.Here's how porosity affects the mechanical properties…
How to Eliminate Porosity in 3D Printed Titanium Alloys
Several approaches can be used to eliminate porosity in 3D-printed titanium alloys:
Powder Density Control: Increasing the powder packing density can reduce the porosity…Production process of high fatigue resistance 3D printing titanium alloy
The production of high fatigue-resistant 3D-printed titanium alloys involves a process that carefully manages defects and microstructure. Researchers at the Institute of…
Application prospects of superconductivity of Niobium-Titanium alloy under ultra-high pressure
The application prospects of superconductivity of Niobium-Titanium alloy under ultra-high pressure are very broad, mainly reflected in the following aspects…
Specific experimental process of Niobium-Titanium alloy maintaining superconductivity under ultra-high pressure
The experimental process of niobium-titanium alloy maintaining superconductivity under ultra-high pressure mainly includes the following steps…
The mechanism of Niobium-Titanium alloy maintaining superconductivity under ultra-high pressure
The mechanism by which Niobium-Titanium alloys maintain superconductivity under ultra-high pressure is mainly related to their material structure and electronic properties. Here are some key factors…
The influence of SLM and EBM technology on material organization in the production of tantalum-titanium alloy
The influence of SLM (selective laser melting) and EBM (electron beam melting) technology on material organization in the production of tantalum-titanium alloy is mainly reflected…
Corrosion resistance of niobium titanium in orthopedic surgery
The corrosion resistance of niobium titanium alloy in orthopedic surgery is very superior, which is mainly reflected in the following aspects…
Biocompatibility of niobium titanium in orthopedic surgery
Niobium titanium alloy has excellent biocompatibility in orthopedic surgery, which is mainly reflected in the following aspects…
Use scenarios of niobium titanium in orthopedic surgery
The application scenarios of niobium titanium alloy in orthopedic surgery mainly include the following aspects…
Advantages of Niobium Titanium in Dental Restoration
The advantages of niobium-titanium alloy in dental restoration are mainly reflected in the following aspects…
Specific applications of niobium and titanium in the medical field
The application of niobium and titanium alloys in the medical field is mainly concentrated in the following aspects…
Does surface treatment technology affect the conductivity of titanium alloys?
Surface treatment technology has a significant impact on the conductivity of titanium alloys, which is specifically reflected in the following aspects…
How to improve the durability of niobium-titanium alloys in fuel cells through surface treatment technology
The durability of niobium-titanium alloys in fuel cells can be significantly improved through a variety of surface treatment technologies, which mainly focus on enhancing their…
Durability of Niobium-Titanium Alloys in Fuel Cells Compared to Other Materials
The durability of niobium-titanium alloys in fuel cells has significant advantages over other materials (such as stainless steel and traditional titanium alloys), mainly reflected…
Chemical corrosion resistance of niobium-titanium alloys in fuel cells
Niobium-titanium alloy has excellent chemical corrosion resistance in fuel cells, especially in the application of proton exchange membrane fuel cells. It has the following key characteristics…
Specific advantages of niobium-titanium alloys in fuel cell manufacturing
Niobium-titanium alloy has many significant advantages in fuel cell manufacturing, mainly reflected in the following aspects…
The main difference between SLM and EBM technology in the production of tantalum-titanium alloys
The main differences between SLM (selective laser melting) and EBM (electron beam melting) technology in the production of tantalum-titanium alloys are reflected in the following…
Specific applications of SLM and EBM technologies in the production of tantalum-titanium alloys
Selective laser melting (SLM) and electron beam melting (EBM) are two important additive manufacturing technologies in the production of tantalum-titanium alloys, each with unique applications…
What innovations are there in the production technology of tantalum-titanium alloys?
The production technology of tantalum-titanium alloys has achieved significant innovation in many aspects in recent years, mainly in the fields of additive manufacturing and…
Cost comparison of cold bed furnace smelting technology with traditional methods
Compared with traditional melting methods (such as vacuum consumable arc melting, VAR), cold bed furnace melting technology has significant advantages in cost, which are mainly…
Application of Cold Hearth Furnace Melting Technology in Different Metals
The application of cold hearth furnace melting technology in different metals is mainly concentrated in the production of titanium alloys and other high-performance alloys…
Main equipment components of cold hearth furnace smelting technology
The main equipment components of cold hearth furnace smelting technology include the following key parts:
1. Furnace body
• Structure: The furnace body usually adopts a horizontal cylindrical structure…Specific steps of cold hearth furnace smelting technology
The specific steps of cold hearth furnace smelting technology usually include the following links:
1. Prepare raw materials…Cold bed furnace smelting technology improves the purity of titanium alloys
Cold bed furnace smelting technology has significant advantages in improving the purity of titanium alloys, which are mainly reflected in the following aspects…
Materials used in hybrid coating technology
In hybrid coating technology, the materials used generally include the following types, each with different properties and applications…
How hybrid coating technology improves thermal stability and friction in titanium alloy processing
Hybrid coating technology has significant effects in improving the thermal stability and reducing friction of titanium alloy processing, which is mainly reflected in the following aspects…
The innovative methods for processing Titanium alloys
The processing technology of titanium alloys has been promoted by many innovative methods in recent years to improve its processing efficiency and product quality…
How to improve the machining performance of titanium alloys
Improving the machining performance of titanium alloys can be achieved through a variety of methods and technical means. Here are some effective strategies…
How to process niobium alloy in microgravity in space
The processing of niobium alloy in microgravity in space involves a series of complex experimental processes, mainly using microgravity conditions to overcome some…
How to control and maintain ultra-high pressure conditions in experiments
In experiments, the control and maintenance of ultra-high pressure conditions are mainly achieved through the following technical means…
How is the increase in the superconducting transition temperature of niobium-titanium alloy under ultra-high pressure experimentally verified?
The increase in the superconducting transition temperature of niobium-titanium alloy under ultra-high pressure was verified through a series of experiments, mainly…
The mechanism of increasing the superconducting transition temperature of niobium-titanium alloy under ultra-high pressure
The mechanism of increasing the superconducting transition temperature of niobium-titanium alloy (NbTi) under ultra-high pressure is mainly related to the following aspects…
How the superconducting transition temperature of niobium-titanium alloy changes with pressure and magnetic field
The superconducting transition temperature of niobium titanium alloy (NbTi) shows significant changes under the influence of pressure and magnetic field…
How does niobium alloy combine with other materials in space?
Niobium alloy has excellent performance in combining with other materials in the microgravity environment of space, which is mainly reflected in the following aspects: Excellent plasticity Niobium alloy shows strong…
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