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ASG
Blade is thin with small slope which make part hard to relase from mold; The consistency of dimension of balde will affaect part balancing result.
Single part machining precision is within ±0.005
GDM can make 1*6 or 1*8 CFF molds
The parent company DAKIN&Gree have many CFF molds, so we accumulate mature and stable techinque.
Cooling Impeller Injection Mold
ASG (Advanced Synthetic Resin)
Thin Blade with Small Slope: The blade design is thin and features a small slope, making it challenging to release from the mold.
Dimensional Consistency: The consistency of the blade’s dimensions is crucial for achieving proper part balancing. Any variations in blade dimensions could negatively impact the final product's balance.
Precision Molding: GDM ensures the blades are consistently manufactured to tight dimensional tolerances, resulting in high-quality impellers with precise balancing.
Efficient Design: Ability to produce molds in 16 or 18 CFF configurations, allowing for flexible and efficient production processes.
Single Part Precision: The machining precision for individual parts is within ±0.005mm, ensuring high accuracy for each component in the impeller mold.
CFF Mold Design: GDM offers the ability to create 16 or 18 CFF molds, providing flexibility for various production scales and ensuring the efficiency of the manufacturing process.
Proven Expertise: With DAKIN & Gree, the parent company, having extensive experience with CFF molds, GDM has accumulated mature and stable techniques for producing high-quality cooling impellers. This wealth of knowledge ensures reliable, optimized, and efficient mold production.
1. What material is used in the Cooling Impeller Mold?
The mold uses ASG (Advanced Synthetic Resin), chosen for its durability and performance in cooling applications.
2. How does the blade’s design affect the mold?
The blade's thinness and small slope make it difficult to release from the mold. This requires precise control over the molding process to prevent defects and ensure smooth ejection.
3. What is the significance of dimensional consistency for the impeller?
Consistent dimensions are vital for achieving the proper balance of the impeller. Any dimensional variations can affect its performance, especially in cooling systems where balance is critical.
4. What machining accuracy does GDM provide?
GDM ensures a high degree of precision, with part machining accuracy within ±0.005mm, ensuring the impeller components meet stringent quality standards.
5. What is the advantage of CFF molds for cooling impellers?
GDM offers 16 or 18 CFF mold configurations, which provide flexibility and scalability in the production process, optimizing efficiency and ensuring high-quality mold outcomes.
6. How does GDM's experience in CFF mold manufacturing benefit customers?
GDM leverages the experience of its parent company, DAKIN & Gree, with many years of experience in CFF mold production, ensuring mature, stable, and proven techniques for producing top-tier cooling impellers.
Cooling Impeller Injection Mold
ASG (Advanced Synthetic Resin)
Thin Blade with Small Slope: The blade design is thin and features a small slope, making it challenging to release from the mold.
Dimensional Consistency: The consistency of the blade’s dimensions is crucial for achieving proper part balancing. Any variations in blade dimensions could negatively impact the final product's balance.
Precision Molding: GDM ensures the blades are consistently manufactured to tight dimensional tolerances, resulting in high-quality impellers with precise balancing.
Efficient Design: Ability to produce molds in 16 or 18 CFF configurations, allowing for flexible and efficient production processes.
Single Part Precision: The machining precision for individual parts is within ±0.005mm, ensuring high accuracy for each component in the impeller mold.
CFF Mold Design: GDM offers the ability to create 16 or 18 CFF molds, providing flexibility for various production scales and ensuring the efficiency of the manufacturing process.
Proven Expertise: With DAKIN & Gree, the parent company, having extensive experience with CFF molds, GDM has accumulated mature and stable techniques for producing high-quality cooling impellers. This wealth of knowledge ensures reliable, optimized, and efficient mold production.
1. What material is used in the Cooling Impeller Mold?
The mold uses ASG (Advanced Synthetic Resin), chosen for its durability and performance in cooling applications.
2. How does the blade’s design affect the mold?
The blade's thinness and small slope make it difficult to release from the mold. This requires precise control over the molding process to prevent defects and ensure smooth ejection.
3. What is the significance of dimensional consistency for the impeller?
Consistent dimensions are vital for achieving the proper balance of the impeller. Any dimensional variations can affect its performance, especially in cooling systems where balance is critical.
4. What machining accuracy does GDM provide?
GDM ensures a high degree of precision, with part machining accuracy within ±0.005mm, ensuring the impeller components meet stringent quality standards.
5. What is the advantage of CFF molds for cooling impellers?
GDM offers 16 or 18 CFF mold configurations, which provide flexibility and scalability in the production process, optimizing efficiency and ensuring high-quality mold outcomes.
6. How does GDM's experience in CFF mold manufacturing benefit customers?
GDM leverages the experience of its parent company, DAKIN & Gree, with many years of experience in CFF mold production, ensuring mature, stable, and proven techniques for producing top-tier cooling impellers.
