The aim of this work is to determine how to combine a subtractive process (HSM) and an additive process (SLS) to realize tools (dies or molds). In fact, the design and manufacturing of tools may be optimized with hybrid and modular points of view. Tools are not seen as single pieces but as 3-D puzzles with modules; each module is manufactured by the best process. So a new methodology is proposed: the most complex-to-manufacture areas of a tool are determined (based on a manufacturability analysis from tool CAD model) and a hybrid modular tool CAD model with a reduced manufacturing complexity is proposed.Mechanical Engineerin
AbstractThis paper presents an integrated hybrid manufacturing approach to enhance and accelerate th...
This work addresses a critical issue affecting the adoption of metal additive manufacturing (AM) me...
Hybrid manufacturing processes that include additive and subtractive operations have unlocked many ...
The aim of this work is to determine how to combine a subtractive process (HSM) and an additive pro...
International audiencePurpose - The purpose of this paper is to propose a methodology to estimate ma...
International audienceIn this paper, a methodology to estimate manufacturing complexity for both mac...
In order to stay competitive, manufacturers have to develop new products in a very short time and wi...
Hybrid Manufacturing (HM) is oriented to combine the advantages of additive manufacturing, such as f...
This paper presents a new approach to tool path generation for a hybrid additive-subtractive manufac...
In recent years, hybrid processes have drawn significant attention due to their ability to capitalis...
A high tool availability is usually named the most important goal in tool management. Ensuring that ...
AbstractImposing the trend of mass customization of lightweight construction in industry, convention...
Hybrid machine tools combining additive and subtractive processes have arisen as a solution to incre...
This work analyzes and compares traditional subtractive machining processes (milling and turning) an...
International audienceDesign For Manufacturing (DFM) approaches aim to integrate manufacturability a...
AbstractThis paper presents an integrated hybrid manufacturing approach to enhance and accelerate th...
This work addresses a critical issue affecting the adoption of metal additive manufacturing (AM) me...
Hybrid manufacturing processes that include additive and subtractive operations have unlocked many ...
The aim of this work is to determine how to combine a subtractive process (HSM) and an additive pro...
International audiencePurpose - The purpose of this paper is to propose a methodology to estimate ma...
International audienceIn this paper, a methodology to estimate manufacturing complexity for both mac...
In order to stay competitive, manufacturers have to develop new products in a very short time and wi...
Hybrid Manufacturing (HM) is oriented to combine the advantages of additive manufacturing, such as f...
This paper presents a new approach to tool path generation for a hybrid additive-subtractive manufac...
In recent years, hybrid processes have drawn significant attention due to their ability to capitalis...
A high tool availability is usually named the most important goal in tool management. Ensuring that ...
AbstractImposing the trend of mass customization of lightweight construction in industry, convention...
Hybrid machine tools combining additive and subtractive processes have arisen as a solution to incre...
This work analyzes and compares traditional subtractive machining processes (milling and turning) an...
International audienceDesign For Manufacturing (DFM) approaches aim to integrate manufacturability a...
AbstractThis paper presents an integrated hybrid manufacturing approach to enhance and accelerate th...
This work addresses a critical issue affecting the adoption of metal additive manufacturing (AM) me...
Hybrid manufacturing processes that include additive and subtractive operations have unlocked many ...