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Environment
- Sustainable Energy
- Electric Motors
- Copper Motor Rotor
- Introduction to Premium Efficiency Motors
- NEMA Premium® Motors Mean Big Savings
- A Systems Approach to Calculating Energy Savings
- MotorSlide Calculator™
- High Efficiency Motors & Transformers CD-ROM
- Motor Systems Training
- Creating a Motor Inventory, Repair/Replace Guidelines
- Motor Failure Policies and Purchasing Specifications
- Repair Specifications, and Preventive and Predictive Maintenance
- Mineral Producer Installing 150 Copper-Rotor Motors Rising Energy Costs Drive Upgrades, Rapid Payback Expected
- Copper-Rotor Motors + Variable Frequency Drives Maximize Savings at a Brass Mill
- Copper-Rotor Motors + Variable Frequency Drives Maximize Savings at Water Treatment Plant
- Motor Upgrades Help Cut HVAC Energy Costs
- Kodak Focuses on NEMA Premium®
- Skating Arena Cuts Energy Costs with Premium-Efficiency Motors
- Brass Mill Cuts Costs with NEMA Premium® Motors
- Cummins Engine Company Saves With Energy Efficiency Motors
- Energy Efficiency
- Energy Storage
- Renewables
- Current and Projected Wind and Solar Renewable Electric Generating Capacity in the Domestic Market
- Thermal Modeling of Electrical Conductors
- Copper and Wind Energy
- Driving America to Energy Independence, 30-mph Wind + Plug-In Hybrids = 100 mpg
- 100 Miles of Copper Cable Connects, Protects 4.6-MW Photovoltaic Solar Farm
- Transformers
- High-Efficiency Copper-Wound Transformers Save Energy and Dollars
- Transformer Life Cycle Cost
- High-Efficiency Utility Transformers Mean Lowest Total Owning Cost
- Temperature Rise and Transformer Efficiency
- Introduction to Transformer Losses
- Proper Transformer Sizing & Copper Windings
- Transformer Manufacturer Uses Only Copper
- Energy-Efficient Transformer Yields 156% ROI
- Latest in SE
- Electric Motors
- Mining & Recycling
- Green Properties of Copper
- Copper in Drinking Water
- Copper in the Natural Environment
Copper Motor Rotor
The use of copper for the conductor bars and end rings of induction motors in place of aluminum results in attractive improvements in motor energy efficiency. Until recently, die cast motor rotors were universally produced using aluminum because rotor fabrication by aluminum pressure die-casting was an established practice, and copper pressure die-casting was unproven. This section identifies and demonstrates design methods, manufacturing process parameters, and durable mold materials that have enabled economical production of die-cast copper motor rotors.
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Production Process
Production Process of Copper Motor Rotors Browse Close -
Technical Papers
Technical Papers for the Copper Motor Rotor Project Browse Close -
Press Releases
Copper Motor Rotor Press Releases Browse Close -
Periodic Updates
Periodic Updates Regarding the Copper Motor Rotor Project Browse Close -
Technology Transfer Report
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