This project analyses the viability of the efficient modelling approach utilizing a semi-automatic algorithm inside a Computer Aided Design (CAD) application in combination with low-cost digitising devices and low-cost Additive Manufacturing (AM) printers when coming up with and manufacturing patient-specific face masks. The aims of the study were to enable clinical practitioners spend time at the main advantages of three-dimensional (3D) scanning, CAD and AM without having to be educated to use design/engineering software. Face features were captured using two 3D devices.
The resulting meshes were compared via the Harsdorf Distance method. A semi-automatic modelling procedure was made with ‘Rhinoceros’ and ‘Grasshopper’ to model the custom face mask and customise several features. With that procedure, volunteers modelled a face mask in less than 30 minutes of their first attempt. The resulting virtual mask was manufactured with two AM printers. An initial economic study indicated that the presented approach supplies a feasible replacement for the current practices.
How to Make a Face Mask Mockup (Using a Face Mask Generator)
Cosmetic mask is really a popular skincare product widely accepted with the youth and female. Most cosmetic masks in the current market offer very few sizes to choose from, thus producing misfit masks with reduced wearing comfort and skincare functionality. This paper describes the best way to realize customized form of cosmetic masks using three-dimensional (3D) parametric face models derived from a lot of scanned facial data. The parametric models approximate individual faces by using a nonlinear regression model controlled by the pair of facial parameters simple to be measured. They function as effective reference geometry to conduct 3D mask design.
A prototyping mask design system implementing the parametric modelling method demonstrates the customized design process. The system allows the user to develop the mask shape upon 3D meshes of the face model by specifying inner and outer boundary curves. An automatic flattening function unfolds the trimmed meshes into a two-dimensional (2D) pattern using a reduced shape distortion. This research enhances the practical price of large-scale anthropometric data by realizing human centric design customization using cosmetic facial mask for instance.
We’ve included some tips on mask care and choosing the best kind of mask straps after this list. Be sure to check out our Best Face Masks for Kids guide and how to Prevent and Treat Mascne.