POLYKETONE POWDER FOR LASER SINTERING

Organization Name

JABIL INC.

Inventor(s)

Steven Kubiak of Edina MN (US)

Zachary Peterson of New Hope MN (US)

Nicholas John Dippel of Burnsville MN (US)

Mathew Artin Torosian of Highlands Ranch CO (US)

Thomas Fry of Victoria MN (US)

POLYKETONE POWDER FOR LASER SINTERING - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240247103 titled 'POLYKETONE POWDER FOR LASER SINTERING

Simplified Explanation: The patent application discusses a semicrystalline polyketone powder suitable for additive manufacturing, with specific characteristics such as bimodal melt peaks and particle size distribution.

Key Features and Innovation:

• Semicrystalline polyketone powder with a bimodal melt peak
• Particle size of at most 300 micrometers and average particle size of 1 micrometer to 150 micrometers
• Non-overlapping melt peak and recrystallization peak

Potential Applications: The technology can be used in additive manufacturing processes to create complex and high-performance components in various industries such as aerospace, automotive, and medical.

Problems Solved: The technology addresses the need for high-quality powders with specific characteristics for additive manufacturing applications, ensuring better performance and efficiency in the production process.

Benefits:

• Improved control over the additive manufacturing process
• Enhanced mechanical properties of the manufactured components
• Increased efficiency and cost-effectiveness in production

Commercial Applications: The technology can be utilized by additive manufacturing companies, research institutions, and industries requiring high-performance components with precise characteristics.

Prior Art: Prior research on semicrystalline polyketone powders for additive manufacturing processes may provide insights into similar innovations and developments in the field.

Frequently Updated Research: Stay updated on the latest advancements in semicrystalline polyketone powders for additive manufacturing to leverage new techniques and improvements in the technology.

Questions about semicrystalline polyketone powders for additive manufacturing: 1. What are the specific advantages of using bimodal melt peaks in semicrystalline polyketone powders for additive manufacturing? 2. How does the particle size distribution of 1 micrometer to 150 micrometers impact the additive manufacturing process and final product quality?

Original Abstract Submitted

in one instance a semicrystalline polyketone powder useful for additive manufacturing is comprised of a bimodal melt peak determined by an initial differential scanning calorimetry (dsc) scan at 20� c./min and a dparticle size of at most 300 micrometers and average particle size of 1 micrometer to 150 micrometers equivalent spherical diameter. in another instance, a composition is comprised of a semicrystalline polyketone powder having a melt peak and a recrystallization peak, wherein the melt peak and recrystallization peak fail to overlap.