Earlier, We Introduced To You The Main Advantages Of Precision Parts Processing . Today, Our Chief Engineer Of Huiwen Intelligent Manufacturing Will Introduce To You Some Methods To Improve The Efficiency Of Precision Parts Processing:
In The Process Of Machining Non-Standard Equipment Parts, There Will Be Common Problems Such As Accelerated Tool Wear, Poor Surface Integrity, Difficulty In Chip Removal, Which Seriously Affect The Quality, Production Cycle Processing Cost Of Precision Parts Made Of Such Materials.
The Processing Of Non-Standard Equipment Parts Requires Ultra-Lubricated Processing Surfaces High Processing Accuracy, Which Requires The Tool To Have A High Standard Life. Whether The Tool Of The CNC Precision Processing Plant Is Worn Out Will Be Based On Whether The Processing Surface Quality Has Reduced The Tolerance. The Standard Life Of Diamond Tools Is Very High, The Tool Wears Very Slowly During High-Speed Cutting. Therefore, During Ultra-Precision Cutting, The Cutting Speed Is Restricted By The Tool Life, Which Is Different The General Cutting Rules.
The Cutting Speed Selected For Non-Standard Equipment Parts Processing Practice Is Often Selected Based On The Dynamic Characteristics Of The Ultra-Precision Machine Tool Used The Dynamic Characteristics Of The Cutting System, That Is, The Speed With The Smallest Vibration Is Selected, Because At This Speed The Surface Roughness Is The Smallest The Processing Quality Is The Highest. Obtaining High-Quality Non-Standard Mechanical Processing Surface Is The Primary Issue In Non-Standard Equipment Parts Processing . Ultra-Precision Machine Tools With Good Quality, Especially Good Dynamic Characteristics Small Vibration Can Use High Cutting Speeds To Improve Processing Efficiency.
The Selection Of Processing Parameters For Non-Standard Equipment Parts Mainly Includes The Selection Of Cutting Tool Angle, Cutting Speed, Cutting Depth Feed Speed, Etc. Past Experience, We Know That If A Tool With A Larger Rake Angle Is Selected When Processing Plastic Materials, The Formation Of Built-Up Edge Can Be Effectively Suppressed. This Is Because When The Rake Angle Of The Tool Increases, The Cutting Force Decreases, The Cutting Deformation Is Small, The Contact Length Between The Tool The Chip Becomes Shorter, Which Reduces The Basis For The Formation Of Built-Up Edge.
The Shenzhen Huiwen Intelligent Manufacturing Technology Co., Ltd. Team Was Established In 2010. It Is Actually A CNC Precision Processing Factory Located On The 1st Floor Of Building F3, Tianyou Maker Industrial Park, Lixinhu, Fuyong, Bao'an District, Shenzhen. It Has Long Been Committed To The Processing Of High-Precision, High-Difficulty, Easy-To-Deform Metal Plastic Parts , Small Medium-Batch Production Of Lightweight Alloy Composite Materials (Such As Aluminum Alloy, Carbon Fiber, Etc.) Parts, Robot Parts Procurement Customization Services.
Our Customers Are All Over The Country. The Positioning Of The CNC Precision Processing Factory Is To Use The Processing Experience Process Innovation Capabilities Accumulated Over More Than 10 Years To Provide The Best Services To Units With Manufacturing Processing Needs. On This Basis, We Hope To Provide Full Industry Chain Services For Various Enterprises, Colleges Scientific Research Institutions In The Field Of Robots. Key Service Industries: Collaborative Robots, Underwater Robots (Marine Submarine Equipment), Nursing Robots, Special Robots, Medical Robots, Service Robots, Bipedal Robots, Other Types Of Robots; Other Industries: Intelligent Automation Equipment, Aerospace, Auto Parts, Other Industries With Mechanical Processing Needs.