Ti Content GR1 GR2 99.6% Commercial Pure Titanium Balls for Body Jewelry and Bearings In Commerial Lives
Introduction of Titanium Balls:
Titanium balls are spherical metallic components made primarily from titanium or titanium alloys. They are precision-engineered to exacting standards and find application in a wide range of industries due to titanium's unique properties.
Characteristics of Grade 2 Titanium:
Purity: Grade 2 titanium is composed of 99.2% titanium, with the remainder being primarily composed of iron and oxygen, along with trace amounts of other elements.
Strength: It offers good strength comparable to low alloy steels, making Grade 2 titanium suitable for a wide range of applications.
Ductility: Grade 2 titanium is highly ductile, allowing it to be easily formed, machined, and welded.
Corrosion Resistance: Like all titanium grades, Grade 2 titanium exhibits excellent resistance to corrosion, particularly in oxidizing and mildly reducing environments, as well as in seawater.
Biocompatibility: It is non-toxic and biocompatible, making Grade 2 titanium suitable for medical implants and surgical instruments.
Lightweight: Titanium is about 50% lighter than steel, which contributes to its use in weight-sensitive applications.
Properties and Characteristics:
Titanium Material: Known for its exceptional strength-to-weight ratio, titanium is one of the strongest and lightest metals available. It offers excellent corrosion resistance, making it suitable for a wide range of demanding applications.
Hollow Design: The hollow interior reduces the weight of the ball while maintaining structural integrity. This design is particularly advantageous in applications where weight reduction is critical without compromising on strength.
Corrosion Resistance: Like solid titanium components, titanium hollow balls exhibit high resistance to corrosion, including resistance to seawater, acids, and other harsh environments. This property makes them suitable for marine, chemical processing, and aerospace applications.
Biocompatibility: Titanium is biocompatible, meaning it is non-toxic and does not induce adverse reactions when in contact with biological tissues. This makes titanium hollow balls suitable for medical implants and surgical instruments.
High Temperature Performance: Titanium can withstand high temperatures without losing its mechanical properties, which is beneficial in applications exposed to extreme heat or thermal cycling.
Precision Engineering: Titanium hollow balls are manufactured to precise specifications using advanced machining or forming techniques. This ensures consistent quality and dimensional accuracy.
Product Specifications:
| Product name | Making titanium ball for bearing/jewerly |
| Grade | Gr1,Gr2,Gr5(Ti-6Al-4V),Gr23,Ti-3Al-2.5v |
| Origin | Wuxi |
| Titanium content | ≥99.6 (%) |
| Impurity content | <0.02 (%) |
| Density | 4.51g/cm3 |
| Color | Titanium natural colour or can be coated another colour |
| Type | Drilling,threading,brushing,polishing,plating,coating |
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Size
| 1. Dia0.5-300mm
2. Customized is available |
| Technique | Machining,Forging |
| Application | Body Jewelry, Medical Applications, Calibration Metrology, Chemistry |
Grade 1 and Grade 2 are both commercially pure titanium (CP titanium) alloys, meaning they consist mostly of titanium with minimal amounts of other elements. The primary difference between Grade 1 and Grade 2 lies in their chemical composition and mechanical properties. Here’s a detailed breakdown of the key differences:
1. Composition
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Grade 1:
- Titanium (Ti): ≥ 99.5%
- Contains trace amounts of other elements such as oxygen, nitrogen, and iron.
- Grade 1 is the purest form of titanium commercially available, with the lowest amount of alloying elements.
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Grade 2:
- Titanium (Ti): ≥ 99.2%
- The composition of Grade 2 includes slightly more iron (Fe) and oxygen (O) than Grade 1.
- Though still considered "commercially pure," Grade 2 has slightly higher impurity levels compared to Grade 1, which can impact some of its properties.
2. Mechanical Properties
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Tensile Strength:
- Grade 1: Tensile strength is around 240 MPa (35,000 psi).
- Grade 2: Tensile strength is higher, around 345 MPa (50,000 psi).
- Difference: Grade 2 has a higher tensile strength than Grade 1, which makes it slightly stronger and more resistant to deformation.
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Yield Strength:
- Grade 1: Yield strength is around 170 MPa (25,000 psi).
- Grade 2: Yield strength is around 275 MPa (40,000 psi).
- Difference: Again, Grade 2 has a higher yield strength compared to Grade 1, meaning it can withstand higher stress before permanent deformation occurs.
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Hardness:
- Grade 1: Hardness is approximately 120 HB.
- Grade 2: Hardness is approximately 130 HB.
- Difference: Grade 2 is slightly harder than Grade 1 due to its higher impurity content, particularly iron.
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Ductility:
- Grade 1: Grade 1 is more ductile, meaning it has higher elongation before fracture, typically around 24%.
- Grade 2: Grade 2 is also ductile, but slightly less than Grade 1, with an elongation of around 20%.
- Difference: Grade 1 is more formable and easier to bend or stretch without breaking.
3. Corrosion Resistance
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Grade 1: Grade 1 has slightly better corrosion resistance than Grade 2 because it is purer and contains fewer alloying elements that could potentially affect its resistance to corrosion.
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Grade 2: Grade 2 is still highly resistant to corrosion, but the higher levels of iron and oxygen slightly reduce its overall resistance compared to Grade 1. However, it is still suitable for most applications where titanium's corrosion resistance is critical.
4. Weldability
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Grade 1: Grade 1 is easier to weld due to its higher purity and lower strength. It doesn't have the alloying elements that might make welding more challenging.
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Grade 2: Grade 2 is also weldable, but due to its higher strength and higher levels of impurities (like iron), it may require more care during welding to avoid issues such as cracking or embrittlement.
5. Cost
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Grade 1: Grade 1 is generally less expensive than Grade 2 because it is purer and requires less processing to refine.
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Grade 2: Grade 2 is slightly more expensive than Grade 1 due to the higher strength and the additional elements present, which can increase the cost of manufacturing.
6. Applications
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Grade 1:
- Marine: Components exposed to seawater where corrosion resistance is the primary concern.
- Chemical processing: Tanks, piping, heat exchangers, and other equipment exposed to aggressive chemicals.
- Medical: Non-structural applications such as dental implants or body piercings.
- Aerospace: In non-load-bearing, low-stress components.
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Grade 2:
- Marine: Structural components where a balance of strength and corrosion resistance is needed, such as fasteners and piping.
- Medical: Orthopedic implants and prosthetics that require a combination of strength and biocompatibility.
- Automotive: Components that require strength but are not exposed to the extreme conditions that would require a higher-grade alloy like Grade 5 (Ti-6Al-4V).
- Aerospace: Suitable for structural parts that don't experience extreme stress.
7. Weight
- Both Grade 1 and Grade 2 have similar densities (about 4.43 g/cm³), so there is no significant difference in weight between the two grades.
Summary Table:
| Property | Grade 1 (CP Titanium) | Grade 2 (CP Titanium) |
| Titanium Content | ≥ 99.5% | ≥ 99.2% |
| Tensile Strength | ~240 MPa (35,000 psi) | ~345 MPa (50,000 psi) |
| Yield Strength | ~170 MPa (25,000 psi) | ~275 MPa (40,000 psi) |
| Hardness | ~120 HB | ~130 HB |
| Corrosion Resistance | Excellent (better than Grade 2) | Excellent |
| Ductility (Elongation) | ~24% | ~20% |
| Weldability | Easier to weld | More challenging to weld |
| Cost | Lower | Higher |
| Applications | Marine, chemical, medical (low-stress) | Marine, medical, aerospace, automotive |
Future Trends in Smart Water Management:
Looking ahead, the role of automated titanium ball valves in smart water management systems is poised to expand significantly. As cities and industries increasingly adopt Internet of Things (IoT) technologies, the integration of advanced sensors and analytics will enable even greater levels of automation and optimization. These developments will allow for more precise control over water distribution and management, further enhancing sustainability efforts.
Moreover, advancements in materials science may lead to the development of new titanium alloys with improved performance characteristics, such as enhanced resistance to wear and higher thermal stability. These innovations will likely increase the applicability of titanium ball valves in even more demanding environments, further broadening their use in smart water management applications.
Sustainability will continue to be a driving force in the evolution of water management systems. As global water scarcity issues become more pressing, the need for efficient, reliable, and environmentally friendly solutions will intensify. Automated titanium ball valves, with their long lifespan and minimal maintenance requirements, will play a crucial role in supporting sustainable practices across various sectors.
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