Part-geometry independent real time closed loop weld pool temperature control system for multi-layer DMD process
First Claim
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1. A method of forming a metal section on a metal substrate by depositing a plurality of superimposed layers comprising the steps of:
- utilizing a laser generating a heating beam and a powdered metal source operative to feed metal powder into the beam and moving the substrate relative to the beam under numerical control over a programmed path to provide advancing melt pool layers;
providing a first melt pool layer and not sensing parameters of the first melt pool layer for reducing an effect of thermal conduction by the metal substrate upon sensed parameters and providing a second melt pool layer over the first melt pool layer and sensing parameters of the second melt pool layer at a plurality of selected coordinates during the generation of a plurality of metallic layers;
storing the sensed parameters of the second melt pool layer at each of the selected coordinates; and
processing the stored parameters to determine an appropriate laser power for use during the deposition of a melt pool layer applied subsequent to the second melt pool layer and adjusting the power of the heating beam based upon the sensed parameters of the second melt pool layer to account for heat retained by the metal substrate.
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Abstract
In a direct metal deposition system which builds up a metallic overlay on a substrate by moving the substrate relative to a laser in a metallic powder feed, the laser power is adjusted for successive layers by sensing the weld pool in a plurality of selected points in each layer and adjusting the power during successive layers to maintain a weld pool that corresponds to those achieved during deposition of a lower optimal layer. This compensates for heating of the substrate resulting from the deposition which tends to increase the pool size or temperature in the higher layers.
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Citations
13 Claims
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1. A method of forming a metal section on a metal substrate by depositing a plurality of superimposed layers comprising the steps of:
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utilizing a laser generating a heating beam and a powdered metal source operative to feed metal powder into the beam and moving the substrate relative to the beam under numerical control over a programmed path to provide advancing melt pool layers; providing a first melt pool layer and not sensing parameters of the first melt pool layer for reducing an effect of thermal conduction by the metal substrate upon sensed parameters and providing a second melt pool layer over the first melt pool layer and sensing parameters of the second melt pool layer at a plurality of selected coordinates during the generation of a plurality of metallic layers; storing the sensed parameters of the second melt pool layer at each of the selected coordinates; and processing the stored parameters to determine an appropriate laser power for use during the deposition of a melt pool layer applied subsequent to the second melt pool layer and adjusting the power of the heating beam based upon the sensed parameters of the second melt pool layer to account for heat retained by the metal substrate. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method of forming a metal section on a metal substrate by depositing a plurality of superimposed layers comprising the steps of:
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utilizing a power source generating a heating beam and a metal source operative to feed metal powder into the beam and moving the substrate relative to the beam over the section to provide an advancing first layer of a melt pool; providing a second layer of a melt pool over the first layer of the melt pool and sensing parameters of the second layer of the melt pool at a plurality of selected coordinates while not sensing parameters of the first melt pool layer for reducing an effect of thermal conduction by the metal substrate upon sensed parameters during the generation of a plurality of metallic layers; storing the sensed parameters of the second layer of the melt pool at each of the coordinates; and
processing the stored parameters to determine an appropriate laser power for use during deposition of a subsequent layers of a melt pool, and adjusting laser power used to provide the subsequent layers of the melt pool based upon sensed parameters of a previous layer of the melt pool. - View Dependent Claims (9, 10, 11)
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12. A method of forming a metal section on a metal substrate by depositing a plurality of superimposed layers comprising the steps of:
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utilizing a heating beam and a powdered metal source operative to feed metal powder into the beam and moving the substrate relative to the beam under numerical control over a programmed path to provide an advancing melt pool; depositing a first layer of a melt pool in contact with the substrate using a first heating beam power; depositing a second layer of a melt pool over the first layer of the melt pool using the same heating beam power as used to deposit the first layer of the melt pool, not sensing parameters of the first melt pool layer for reducing an effect of thermal conduction by the metal substrate upon the sensed parameters and sensing parameters of the second layer of the melt pool at a plurality of selected coordinates during the generation of the second layer of the melt pool; depositing a third layer of a melt pool while adjusting the power of the heating beam based upon sensed parameters of the second layer of the melt pool and sensed parameters of the third layer of the melt pool; and using stored parameters of the melt pool during generation of the second and third layer of the melt pool to determine an appropriate heating beam power for use during deposition of subsequent layers of the melt pool. - View Dependent Claims (13)
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Specification