Metal Alloy Titanium Rod For Making 3D Printing Powder

About Metal Alloy Titanium Rod For Making 3D Printing Powder :

Purposes: Aviation and ship parts, medical use
 

Execution standard:

Titanium And Titanium Alloy Bars For Powder Production In Additive Manufacturing (GB/T38973-2020)  
 

Permissible size deviation:

Allowable deviation of bar diameter is ±0.1mm. 

The allowable deviation of bar length is ±5 mm, a small amount of bar length shorter than the nominal length (10~100) mm is allowed, but not more than 5% of the total number.  

Both ends of the bar should be cut flat, cutting Angle should not be greater than 4 mm.  
The bending degree of the bar should not be greater than 0.7mm /m.  

Appearance quality:

The surface of bar should be clean, no oxide scale, crack, folding and other defects are allowed.  Local defects on the surface of the bar shall be removed and cleaned. Depth shall not exceed allowable diameter deviation.  
The surface of the bar is allowed to be less than half of the allowable diameter deviation of individual slight scratches, indentations, pitting and other defects.  

How to produce titanium rod?
Titanium is a powerful and highly corrosion-resistant metal, widely used in various industrial and medical applications, including aerospace, marine engineering, chemical processes, and medical implants. The production process of titanium rods involves complex steps and professional techniques. The following are the basic steps for producing titanium rods:
1. Selection and processing of titanium ore
Firstly, it is necessary to select titanium ore suitable for producing titanium products. These titanium ores usually contain titanium dioxide and other impurities, and useful titanium dioxide needs to be extracted through mineral processing and chemical treatment. This process usually includes steps such as crushing, grinding, and chemical treatment to separate and purify titanium dioxide.
2. Melting
The extracted titanium dioxide is sent to an electric furnace for melting. Titanium dioxide reacts with carbon during this process to generate titanium and carbon dioxide. This step is crucial in the production process, requiring precise control of reaction conditions to ensure the quality and stability of the generated titanium.
3. Casting and extrusion
The melted titanium liquid is poured into the mold for Casting. The cast titanium rod is called a "rough billet." Afterward, the rough billet undergoes a series of extrusion and processing to reduce its size and increase density, thereby improving its physical properties.
4. Heat treatment
The extruded titanium rod needs heat treatment to optimize its mechanical properties. The temperature and time during the heat treatment process have a crucial impact on the hardness and strength of titanium rods. This step ensures the titanium rod has ideal mechanical properties for various applications.
5. Straightening and cutting
After heat treatment, the titanium rod needs to be straightened to eliminate its bending. Afterward, the titanium rod can be cut into small segments of specific lengths for easy transportation and use.

Payment & Transportation: