What Is The Difference Between A Carbon Fiber Robotic Arm An Aluminum Alloy Robotic Arm?

We Briefly Analyze The Difference Between The Two The Material

1. Carbon Fiber Is Lighter Than Aluminum Alloy. The Robotic Arm Made Of Carbon Fiber Material Is The Lightest Among All Robotic Arms Made Of Different Materials.

2. The Toughness Of Carbon Fiber Robotic Arms Is Much Higher Than That Of Aluminum Alloy. Aluminum Alloy Has Relatively Low Toughness Lacks Elasticity. Carbon Fiber Has The Softness Processability Of Textile Fiber, Carbon Fiber Material Is Less Likely To Break.

3. Carbon Fiber Has Very Little Deformation At Room Temperature. In The Domestic Industrial Robot Manufacturing, The Application Trend Of Carbon Fiber In Robotic Arms Is Becoming More More Obvious. Shenzhen Huiwen Intelligent Manufacturing Technology Co., Ltd. Cooperated With The China Aerospace Institute To Develop A Carbon Fiber 6-Axis Joint Robot Arm , Which Is Used In Its Production Lines In The Fields Of Electronics Mechanical Manufacturing. The Two Parties Also Reached A Willingness To Continue Long-Term Strategic Cooperation.

When Using Carbon Fiber Composite Materials To Manufacture Robotic Arms, The Carbon Fiber Laying Method Will Have A Direct Impact On Its Performance. Here We Take The Carbon Fiber Robotic Arm Of Shenzhen Huiwen Intelligent Manufacturing Technology Co., Ltd. As An Example For A Simple Analysis.

Huiwen Intelligent Manufacturing's Ply Processing Of Carbon Fiber Composite Materials Mainly Determines The Ply Direction, Ply Sequence Total Number Of Plies Of Carbon Fiber Composite Materials Based On The Robot Performance Requirements. Too Many Ply Angle Orientations Will Increase The Difficulty Of Design Work Part Molding, So The Number Of Ply Directions Should Be Reduced As Much As Possible Without Affecting The Design Requirements. When Designing Ply, The Ply Angles Are Generally Selected 0°, +45°, -45°, 90°. Other Special Cases Need To Be Handled Separately.

When Laying Out The Layers, Composite Parts Are Usually Laid Out Symmetrically Evenly, With The Characteristic That The Upper Lower Layers Are Symmetrical About The Middle Plane In The Overall Layer. If An Asymmetrical Balanced Layer Is Required, The Unbalanced Layer Should Be Arranged Near The Middle Of The Overall Layer. This Method Can Effectively Prevent The Composite Parts Warping After Experiencing Tension-Bending Coupling Tension-Shear Coupling.

In Terms Of The Laying Sequence, In Order To Reduce The Possibility Of Delamination Cracking Of Two Adjacent Layers Laid In The Same Way, Generally No More Than Four Layers Of Continuous Identical Layers Are Laid, No More Than Two Layers Are Made For Composite Materials With Higher Performance Requirements. The Laying Angle Should Try To Arrange The 0° Layer 90° Layer In The Middle Of The ±45° Layer, The +45° Layer -45° Layer In The Middle Of The 0° Layer The 90° Layer, In Order To Reduce The Interlayer Stress Of The Robot Arm.

Under The Premise Of Ensuring The Original Degrees Of Freedom Performance Of The Robot, The External Dimensions Must Be Kept Unchanged During Design, Sufficient Space Must Be Left Inside The Robot Arm For The Installation Of Wiring Control Circuits. Therefore, The Shell Thickness Of The Robot Arm Should Exceed The Thickness Of The Original Cast Iron Structure Arm At The Minimum Value That Maintains The Original Performance.

Through The Case Of The Robotic Arm Produced By Huiwen Intelligent Manufacturing, We Can See That The Use Of Carbon Fiber Composite Materials Instead Of Traditional Metal Materials To Manufacture Robotic Arms Is Of Great Significance To Improving Industrial Production Efficiency, Energy Conservation Environmental Protection. With The In-Depth Research On Various Aspects Of The Performance Of Carbon Fiber Composite Materials In China, Carbon Fiber Composite Materials Are Playing An Increasingly Important Role In Robot Manufacturing.

Huiwen Intelligent Manufacturing's Business Scope: Hardware Processing |Plastic Parts Processing|Light Alloy  Composite Parts Processing | High-Precision Parts Processing | Robot Parts Processing|Drone Parts Processing |Intelligent/Automated Equipment Parts Processing | Auto Parts Processing| Non-Standard Parts Processing |Collaborative Robot Processing|Special Robot Non-Standard Parts Processing| Logistics Robot Parts Processing |Exoskeleton Robot Thin-Walled Parts Processing |Rehabilitation Robot Parts Processing|Magnesium-Lithium Alloy Parts Processing |Carbon Fiber Robotic Arm Parts Processing |Robot Dog Parts Processing|Robot High-Precision Parts Processing|Robot Module Customization|Robot Parts Procurement Service

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