PROTERIAL, LTD. (20240335879). METHOD FOR MEASURING DEFORMATION AMOUNT OF DEFORMATION PART OF ADDITIVELY MANUFACTURED TEST OBJECT AND METHOD FOR DETERMINING OPTIMUM CONDITION FOR ADDITIVE MANUFACTURING simplified abstract
METHOD FOR MEASURING DEFORMATION AMOUNT OF DEFORMATION PART OF ADDITIVELY MANUFACTURED TEST OBJECT AND METHOD FOR DETERMINING OPTIMUM CONDITION FOR ADDITIVE MANUFACTURING
Organization Name
Inventor(s)
Steven James Osma of Tokyo (JP)
Hirotsugu Kawanaka of Tokyo (JP)
Shinji Matsushita of Tokyo (JP)
METHOD FOR MEASURING DEFORMATION AMOUNT OF DEFORMATION PART OF ADDITIVELY MANUFACTURED TEST OBJECT AND METHOD FOR DETERMINING OPTIMUM CONDITION FOR ADDITIVE MANUFACTURING - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240335879 titled 'METHOD FOR MEASURING DEFORMATION AMOUNT OF DEFORMATION PART OF ADDITIVELY MANUFACTURED TEST OBJECT AND METHOD FOR DETERMINING OPTIMUM CONDITION FOR ADDITIVE MANUFACTURING
Simplified Explanation: The patent application describes a method for performing additive manufacturing using metal powder to create a test object with a reference part, a deformation part, and a coupling part on a baseplate. The deformation amount of the test object is then measured.
- Additive manufacturing method using metal powder
- Creation of a test object with reference, deformation, and coupling parts
- Measurement of deformation amount
Key Features and Innovation:
- Integration of reference, deformation, and coupling parts in a test object
- Measurement of deformation amount for quality control
- Utilization of additive manufacturing with metal powder
Potential Applications:
- Quality control in additive manufacturing processes
- Prototyping and testing of metal components
- Research and development in materials science
Problems Solved:
- Ensures accuracy and quality in additive manufacturing
- Facilitates precise measurement of deformation in metal parts
- Streamlines testing processes for metal components
Benefits:
- Improved quality control in manufacturing
- Enhanced accuracy in measuring deformation
- Cost-effective prototyping and testing of metal parts
Commercial Applications: Metal manufacturing industries, aerospace companies, automotive manufacturers, research institutions
Prior Art: Prior research on additive manufacturing methods using metal powder and deformation measurement techniques in metal components.
Frequently Updated Research: Ongoing studies on additive manufacturing advancements and deformation analysis in metal parts.
Questions about Metal Additive Manufacturing: 1. How does the method of additive manufacturing using metal powder differ from traditional manufacturing techniques? 2. What are the key advantages of measuring deformation in metal parts during the manufacturing process?
Original Abstract Submitted
a method that includes performing additive manufacturing using metal powder under a predetermined condition to manufacture an additively manufactured test object including a reference part, a deformation part and a coupling part integrating the reference part and the deformation part arranged in a surface direction of an upper surface of a baseplate on the upper surface of the baseplate such that the reference part, the deformation part, and the coupling part are joined to the upper surface of the baseplate; a separation step of separating the additively manufactured test object from the upper surface of the baseplate; and measuring the deformation amount of the deformation part based on the reference part of the additively manufactured test object separated from the upper surface of the baseplate.
