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Shaanxi Hangyu Nonferrous Metal Processing Co., Ltd., founded in December 2005, is a national high-tech enterprise mainly engaged in forging titanium and titanium alloy, nickel, zirconium and other non-ferrous metal materials and deep processing of precision parts. Its product scope covers high-end fields such as aerospace, weapons and Marine equipment. The registered capital is 60 million yuan, and the registered address is No.9, East Section of Tianfeng Road, High-tech Development Zone, Baoji City, Shaanxi Province. The company has a 3500-ton fast forging machine imported by HBE company, equipped with more than 10 sets of auxiliary equipment such as box resistance heating furnace, heat treatment furnace and rail operation machine. Imported from Germany, United States and Japan, 150 sets of HELLER five-axis milling vehicle composite machining center, CNC gantry milling machining center, vertical machining center, turning center, electric spark, wire cutting, and 60 sets of advanced measuring equipment such as three coordinate measuring instrument and titanium and titanium alloy bars and forgings have capacity of 3000 tons, including 500000 pieces, which has the deep processing capability of titanium and titanium alloy raw materials to precision parts.
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![Gr.5 Titanium Alloy Thin-Walled Cylinder]()
Gr.5 Titanium Alloy Thin-Walled CylinderGrade 5 titanium alloy (Ti-6Al-4V) thin-walled cylinders are lightweight precision components made from aerospace-grade titanium alloy materials. With a low density of 4.5 g/cm³, they are over 40% -
![Titanium Numerical Control Machining Parts]()
Titanium Numerical Control Machining PartsProduct name . Titanium alloy precision machining parts. TC4 Titanium alloy parts (bone plate, bolts, nuts, gasket). TA1 pure titanium non-calibrated parts (medical implants, experimental equipment)
Why Choose Us
The company in the titanium and titanium alloy, nickel, zirconium and other non-ferrous metal forging and precision parts processing technology field, has a mature product process design and processing technology, product processing quality and sales volume in the leading position in the segmentation field.
Technical Team
The company currently has over 170 employees, including 20 technical professionals, 10 senior engineers, and 15 senior technicians. A total of 55 employees hold an associate degree or higher.
Obtain Patent
The company holds 18 core product patents, and its "Hangyu Titanium" brand enjoys strong market competitiveness within the industry.
Good Reputation
With a solid reputation, the company has been recognized as an AAA-level credit enterprise in Shaanxi Province.
What are the different grades of titanium and their machinability
Titanium is available in several grades, each with distinct properties that influence its machinability. The most common grades are Grade 1, Grade 2, Grade 3, Grade 4, and Grade 5, although there are others, such as Grade 9, Grade 23, and more specialized alloys. Below is an overview of the different grades and their machinability:
|
Grade |
Properties |
Machinability |
|
Grade 1 |
Softest, most ductile, excellent corrosion resistance, high formability |
Easiest to machine, challenges with burr formation and tool wear |
|
Grade 2 |
Moderate strength, good ductility, excellent corrosion resistance, most commonly used |
Relatively good machinability, slightly more challenging than Grade 1 |
|
Grade 3 |
Higher strength than Grades 1 & 2, reduced ductility, good corrosion resistance |
More difficult to machine due to increased strength, pronounced tool wear |
|
Grade 4 |
Strongest commercially pure titanium, excellent corrosion resistance, high strength |
Most challenging among pure grades, requires careful cutting control |
|
Grade 5 (Ti-6Al-4V) |
High strength, excellent corrosion resistance, good fatigue properties, widely used in aerospace |
Difficult to machine, high tool wear, requires slower speeds and robust cooling |
|
Grade 9 (Ti-3Al-2.5V) |
Lower strength than Grade 5, good balance of strength and formability, good corrosion resistance |
Easier than Grade 5 but more challenging than pure grades, requires careful parameter control |
|
Grade 23 (Ti-6Al-4V ELI) |
Similar to Grade 5 but with extra-low interstitials, enhanced fracture toughness, used in medical implants |
Similar to Grade 5, slightly easier due to ELI properties, still challenging |
Benefits of CNC Machining Titanium
CNC machining offers superior precision and control over titanium, making it ideal for creating complex parts with tight tolerances. Unlike metal casting or 3D printing, CNC machining ensures better surface finishes and strength. It is also used to machine high-quality titanium alloys that may be too hard for 3D printing. This makes CNC machining the preferred method for demanding, high-performance applications, and its benefits include:
CNC machining titanium is known for its ability to achieve a high level of precision and accuracy. This is why it is used in the aerospace, medical, and other high-precision industries that demand parts with tight tolerances. CNC machines excel in this aspect, ensuring that even complex and intricate components are accurately manufactured. CNC machining can consistently meet stringent specifications, whether creating intricate medical implants or aerospace components.
Efficiency in material usage is a significant benefit of CNC machining titanium. Titanium is an expensive material, and minimizing waste is crucial for cost-effectiveness. CNC machines are designed to efficiently remove material, ensuring that expensive titanium is used optimally. The reduction in material waste not only saves costs but also contributes to sustainability by minimizing environmental impact.
CNC machining is versatile and capable of producing complex and intricate part geometries, which can be challenging to achieve with traditional manufacturing methods. This adaptability is particularly valuable in industries where custom or intricately designed components are essential. CNC titanium parts allows manufacturers to bring highly intricate and complex designs to life, opening up possibilities for innovative products and solutions in aerospace, medical devices, and more.
Consistency is a hallmark of CNC titanium machining services. CNC machines can produce large quantities of parts with uniform quality. This is particularly valuable in industries like aerospace and automotive, where component quality, reliability, and uniformity are paramount. Whether you need one component or thousands, CNC machining ensures that each part meets the same high-quality standards, reducing the chances of defects and ensuring product reliability.
CNC machining can achieve excellent surface finishes on titanium components. This is a critical feature, especially in applications where the appearance and smoothness of the final product matter. In the medical and aerospace sectors, where components must meet high standards of cleanliness and aesthetics, titanium CNC machining ensures that the finished product performs exceptionally and looks the part.
Titanium-machined parts are durable, corrosion-resistant, and aesthetic. These qualities give them applications in a variety of industries.
Marine/Naval Industry
Compared to most naturally occurring metals, titanium has a higher corrosion resistance. This resistance makes it ideal for producing propeller shafts, underwater robotics, rigging equipment, ball valves, marine heat exchangers, fire system piping, pumps, exhaust stack liners, and onboarding cooling systems.
Aerospace
Due to its numerous desirable qualities, titanium is a sought-after material in the aerospace industry. These qualities include its high strength-to-weight ratio, outstanding resistance to corrosion, and capability in extremely hot environments. Titanium parts in the aerospace industry include seat components, turbine components, shaft, valve, housing, and filter parts, as well as parts for oxygen generation systems.
Automotive
In the automotive sector titanium vs aluminum is an ever-raging argument, with aluminum having the upper hand due to its availability and cost effectiveness. Nonetheless, titanium is still found in the production of automotive parts. The main automotive uses for titanium and its alloys are production in the valves, valve springs, retainers, car stop brackets, hanging ear nuts, engine piston pins, suspension springs, brake caliper pistons, engine rockers, and connecting rods of engines with internal combustion.
Medical and Dental
The medical industry finds several applications for titanium due to its high corrosion resistance, low electrical conductivity, and physiological pH values. Parts made from titanium used for the medical industry include tapered, straight, or self-tapping bone screws, dental implant screws, cranial screws for cranial fixation systems, spinal fixation rods, connectors and plates, orthopedic pins, etc.
CNC Machining Process Flow For Titanium
The CNC machining of titanium alloys demands adherence to set specifications. The specific process flows are important for the distinctive properties of the alloy. The process comprises the different stages that adhere to all requirements for optimal outcomes
Material Selection: The best titanium alloy’s choice should depend on the resistance to corrosion abilities and strength. It should also focus on the resistance to fatigue levels.
Designing and Programming: Develop and transform a CAD model of the part in the CNC Program. The program ensures that the machining follows the set operation and cut specifications.
Tool Selection and Setup: The titanium alloy requires highly specialized cutting tools, which should be made of ceramic or carbide. The objective is to undertake high-level cutting forces. They also need to withstand the material’s hardness, hence the effectiveness of the designing process. Tool selection is always in line with the role of the part.
Machining Operations: Machining operations require rough cutting, drilling, and finishing. Titanium’s heat sensitivity makes managing cutting speeds mandatory. The process also requires adequate cooling fluid to overcome the high level of overheating.
Inspections: At the end of machining, parts need to be inspected. The objective is to achieve high dimensional accuracy. Another objective is to attain a surface finish. As titanium exhibits a low rate of thermal conductivity, warping is necessary. The aim is to achieve constant-level monitoring.
Post Processing: Post-process treatments like coating and anodizing are essential for increasing material properties. The treatment’s application depends on the parts’ applications. The treatment aims to improve the corrosion resistance and enhance the material’s surface finish properties.
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