City University of Hong Kong (20240344183). MULTI-COMPONENT HIGH ENTROPY ALLOY WITH NANOSCALE ATOMIC SELF-ORDERING STRUCTURE AND PREPARATION METHODS THEREOF simplified abstract
MULTI-COMPONENT HIGH ENTROPY ALLOY WITH NANOSCALE ATOMIC SELF-ORDERING STRUCTURE AND PREPARATION METHODS THEREOF
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MULTI-COMPONENT HIGH ENTROPY ALLOY WITH NANOSCALE ATOMIC SELF-ORDERING STRUCTURE AND PREPARATION METHODS THEREOF - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240344183 titled 'MULTI-COMPONENT HIGH ENTROPY ALLOY WITH NANOSCALE ATOMIC SELF-ORDERING STRUCTURE AND PREPARATION METHODS THEREOF
The present invention utilizes additive manufacturing technology to create a new l1reinforced multi-component high entropy alloy with exceptional mechanical properties such as high density, strength, and ductility. The selective laser melting process used in producing these alloys makes them safer, more cost-effective, and significantly reduces processing time, making them highly competitive in the market.
- Utilizes additive manufacturing technology
- Develops a new l1reinforced multi-component high entropy alloy
- High density, strength, and ductility mechanical properties
- Selective laser melting process for crafting alloys
- Safer, more cost-effective, and reduced processing time
Potential Applications: - Aerospace industry for lightweight, high-strength components - Automotive industry for durable and efficient parts - Medical field for biocompatible implants - Defense sector for advanced materials in weaponry - Energy sector for high-performance equipment
Problems Solved: - Enhances mechanical properties of alloys - Reduces processing time and costs - Increases competitiveness in the market
Benefits: - Improved mechanical properties - Cost-effective production - Enhanced competitiveness - Versatile applications in various industries
Commercial Applications: Title: Advanced Materials for High-Performance Industries Description: This technology can be used in aerospace, automotive, medical, defense, and energy sectors for producing high-quality, cost-effective components with superior mechanical properties.
Prior Art: Readers can explore prior research on high entropy alloys, additive manufacturing, and selective laser melting techniques to understand the background of this innovation.
Frequently Updated Research: Stay updated on advancements in additive manufacturing technologies, high entropy alloys, and material science for potential improvements and applications of this technology.
Questions about Multi-Component High Entropy Alloy: 1. How does the selective laser melting process contribute to the properties of the multi-component high entropy alloy? 2. What are the key advantages of using additive manufacturing technology in developing advanced alloys like this one?
Original Abstract Submitted
the present invention uses additive manufacturing technology to develop a new l1reinforced multi-component high entropy alloy, which has high density and excellent strength and ductility mechanical properties. the selective laser melting process employed in crafting these multi-component high entropy alloys renders them safer, more cost-effective, and significantly reduces processing time, thus positioning them as highly competitive offerings within the market.
