Add to ORKGThe laser additive manufacturing technique of laser deposition allows quick fabrication of fully-dense metallic components directly from Computer Aided Design (CAD) solid models. The applications of laser deposition include rapid prototyping, rapid tooling and part refurbishment. The development of an accurate predictive model for laser deposition is extremely complicated due to the multitude of process parameters and materials properties involved. In this work, a heat transfer and fluid flow model is developed. The model is used to predict dilution under varying process parameters for deposits of Ti-6Al-4V. Experimental validation of the predicted dilution is presented. The laser used is a direct diode lase
Laser engineering net-shaping (LENS), based on directed energy deposition (DED), is one of the popul...
The coaxial laser cladding process is the heart of direct metal deposition (DMD). Rapid materials pr...
One of the main current challenges in the field of additive manufacturing and directed energy deposi...
The laser additive manufacturing technique of laser deposition allows quick fabrication of fully-de...
Laser deposition is an extension of the laser cladding process for rapid prototyping of fully dense ...
Laser deposition is a method of depositing material by which a powdered material is melted and conso...
A laser deposition process involves the supply of metallic powders into a laser-heated spot where th...
The laser additive manufacturing technique of laser deposition allows quick fabrication of fully-den...
In the advent of laser additive manufacturing (LAM), extensive efforts have been taken to optimize t...
Laser deposition allows quick fabrication of fully-dense metallic components directly from CAD solid...
Laser metal deposition is an additive manufacturing technique which allows quick fabrication of full...
Abstract: The influence of processing parameters on the resulting properties of laser metal depositi...
The laser metal deposition (LMD) laser technique is a free-form metal deposition process, which allo...
Laser metal deposition with wire feed is one of the additive manufacturing methods with great scope...
As one of the most popular additive manufacturing (AM) technologies in the aerospace industry, laser...
Laser engineering net-shaping (LENS), based on directed energy deposition (DED), is one of the popul...
The coaxial laser cladding process is the heart of direct metal deposition (DMD). Rapid materials pr...
One of the main current challenges in the field of additive manufacturing and directed energy deposi...
The laser additive manufacturing technique of laser deposition allows quick fabrication of fully-de...
Laser deposition is an extension of the laser cladding process for rapid prototyping of fully dense ...
Laser deposition is a method of depositing material by which a powdered material is melted and conso...
A laser deposition process involves the supply of metallic powders into a laser-heated spot where th...
The laser additive manufacturing technique of laser deposition allows quick fabrication of fully-den...
In the advent of laser additive manufacturing (LAM), extensive efforts have been taken to optimize t...
Laser deposition allows quick fabrication of fully-dense metallic components directly from CAD solid...
Laser metal deposition is an additive manufacturing technique which allows quick fabrication of full...
Abstract: The influence of processing parameters on the resulting properties of laser metal depositi...
The laser metal deposition (LMD) laser technique is a free-form metal deposition process, which allo...
Laser metal deposition with wire feed is one of the additive manufacturing methods with great scope...
As one of the most popular additive manufacturing (AM) technologies in the aerospace industry, laser...
Laser engineering net-shaping (LENS), based on directed energy deposition (DED), is one of the popul...
The coaxial laser cladding process is the heart of direct metal deposition (DMD). Rapid materials pr...
One of the main current challenges in the field of additive manufacturing and directed energy deposi...