Wiseman briefly analyses the main processing methods of machining titanium alloy?

Titanium Alloy Materials Are Widely Used In Aerospace, Biomedicine, Shipbuilding, Automotive Manufacturing Due To Their Good Mechanical Properties, High Specific Strength, Superior High Low Temperature Performance, Excellent Corrosion Resistance. However, Since Titanium Alloys Are Typical Difficult-To-Process Materials, With The Gradual Increase In The Proportion Of Titanium Alloy Materials In The Aviation Field, Especially In The Aircraft Manufacturing Industry, How To Reasonably Cutting Parameters, Optimize Tool Structure Geometric Design, Formulate The Best Processing Technology Has Become An Urgent Problem To Be Solved In The Production Of Titanium Alloy Products. Huiwen Zhizao Is A Machining Factory With More Than Ten Years Of CNC Machining Experience , With A Full Range Of Equipment, CNC Lathe/Milling/Grinding/Drilling/Machining. Partners With Parts Processing Needs Are Welcome To Call Us For Quotes.

Aerospace Products Generally Require Small Structural Dimensions, Light Weight, High Precision, So There Are More Small Complex Parts. Since Some Small Parts Have Complex Structural Shapes Relatively Low Rigidity, Their Processing Properties Are Poor  Mechanical Processing Is Prone To Deformation, Which Is A Difficult Issue To Solve. This Article Briefly Analyzes The Main Processing Methods For Machining Titanium Alloys.

1. Detailed Explanation Of The Technology Methods Of Titanium Alloy Processing

 Titanium Alloy Machining Process, Including The Use Ofthe Programmability Of The Machining Center To Reasonably Compile CNC Machining Programs, The Use Of The Humanized Operation Of The Machining Center To Optimize Cutting Parameters. The Article Uses A Comparative Method To Introduce The Reasonable Selection Of Tool Geometry The Processing Route Measures For Machining High-Precision Large-Diameter-Ratio Titanium Alloy Holes Using Ordinary High-Speed Steel Drills End Mills. The Practicality Of Improving Tools, Optimizing Cutting Parameters Machining Process Methods Is Verified Through The Processing Of Actual Samples.

2. Titanium Alloy Processing Process

 Providing Evenly Distributed Machining Allowances For Each Aluminum Machining Tool Ensures Constant High Productivity A Safe Cutting Process. When Ap/Ae (Axial Cutting Depth/Radial Cutting Depth) Remains Unchanged, The Cutting Speed Feed Rate Can Also Be Kept Constant At A High Level. In This Way, The Mechanical Action Workload On The Cutting Edge Change Less, So The Heat Fatigue Generated Are Also Less, Thereby Increasing The Tool Life. If The Subsequent Processes Are Some Semi-Finishing Processes, Especially All Finishing Processes, Unmanned Partially Unmanned Processing Can Be Carried Out.

3. Titanium Alloy Processing Experience Sharing

 Combined With The Technical Data Experience In The Field Of Titanium Alloy Machining, This Paper Conducts A Theoretical Discussion On The Processing Technology Of Typical Titanium Alloy Shell Parts Using Machining Centers, Focusing On The Milling, Drilling, Boring, Tapping Other Processes In The Processing Of Titanium Alloy Shell Parts. In Practical Applications, Including Sheet Metal Processing , It Can Provide Certain Help To The Front-Line Personnel In The Field Of Titanium Alloy Parts Processing.

4. Promotion Of Titanium Alloy Processing High Temperature Alloy Technology

 With The Widespread Application Of Titanium Alloys, The Difficulty Of Processing Materials Has Attracted More More Attention In The Field Of Mechanical Processing Due To Its High Material Strength, High Chemical Activity, Low Elastic Modulus, Etc. Huiwen Zhizao Is A Machining Factory With More Than Ten Years Of CNC Processing Experience. It Has A Full Range Of Equipment, CNC Lathe/Milling/Grinding/Drilling/Processing. Partners With Parts Processing Needs Are Welcome To Call Us For Quotation.