Essays about: "Design för Additiv tillverkning"

Showing result 21 - 25 of 50 essays containing the words Design för Additiv tillverkning.

  1. 21. Additive   manufacturing   of   spare   parts   for   the  mining   industry  a   pilot   study   on   business   impact   from   an   aftermarket   perspective.

    University essay from Örebro universitet/Institutionen för naturvetenskap och teknik

    Author : Kristian Vingerhagen; Julia Alfredsson; [2021]
    Keywords : dditive manufacturing; spare parts; aftermarket; mining industry; design research methodology; dditiv tillverkning; reservdelar; eftermarknad; gruvindustri; designforsknings- metodologi;

    Abstract : The   purpose   of   this   pilot   study   was   to   identify   and   evaluate   different   business   cases   for   Epiroc’s  Parts   &   Services   Division   (PSD)   regarding   the   use   of   additive   manufacturing   (AM),   also   known   as  3D   printing,   for   their   spare   parts   within   the   mining   industry.    This   study   presents   an   approach   for  how   spare   parts   promising   for   AM   can   be   identified   and   shows   the   difficulties   with   AM. READ MORE

  3. 22. Adaptive Concrete 3D Printing Based on industrial Robotics

    University essay from KTH/Maskinkonstruktion (Inst.)

    Author : Ruiming Hu; [2021]
    Keywords : Additive Manufacture; 6-Axis Robot; Point Cloud; Self-Compensation; Additiv tillverkning; 6-axlig robot; punktmoln; självkompensation;

    Abstract : Additive manufacturing, also known as 3D printing is the construction of a three-dimensional object from 3D CAD model. The process includes that material depositing, joining or solidifying using computer control. It is getting widely used in many fields, such as architecture and civil engineering, industry and even medical fields. READ MORE

  4. 23. 3D Printed Lattice Structure for Driveline Applications

    University essay from KTH/Materialvetenskap

    Author : Boyu Xue; [2021]
    Keywords : Lattice structure; AM Additive Manufacturing ; topology optimization; lattice optimization; NVH noise; vibration and harshness ; mechanical performance; lightweight; driveline; natural frequency; Gitterstruktur; AM additiv tillverkning ; topologioptimering; optimering av gitter; NVH buller; vibrationer och obehag ; mekanisk prestanda; lättvikt; drivlina; egenfrekvens;

    Abstract : Lattice structures have received a lot of attention as cellular materials in recent years because of their outstanding properties, such as high strength-to-weight ratio, heat transfer, energy absorption, and capability of improving noise, vibration and harshness (NVH) behavior. This type of structure received a boost from additive manufacturing (AM) technology, which can fabricate geometries in practically any shape. READ MORE

  5. 24. Design for Additive Manufacturing : An Optimization driven design approach

    University essay from KTH/Maskinkonstruktion (Inst.)

    Author : Satabdee Dash; [2020]
    Keywords : Additive Manufacturing; Design for Additive Manufacturing; Overhang Constraint; Topology Optimization; Additiv tillverkning; Design för Additiv tillverkning; överhängsbegränsning; Topologioptimering;

    Abstract : Increasing application of Additive Manufacturing (AM) in industrial production demands product reimagination (assemblies, subsystems) from an AM standpoint. Simulation driven design tools play an important part in achieving this with design optimization subject to the capabilities of AM technologies. READ MORE

  6. 25. Post-processing for roughness reduction of additive manufactured polyamide 12 using a fully automated chemical vapor technique - The effect on micro and macrolevel

    University essay from KTH/Skolan för kemi, bioteknologi och hälsa (CBH)

    Author : Ingrid Johansson; [2020]
    Keywords : Chemical post-processing; PostPro3D; selective laser sintering; surface roughness; polyamide 12; Kemisk efterbehandling; PostPro3D; selektiv lasersintring; ytojämnhet; polyamid 12;

    Abstract : Additive manufacturing has increased in popularity in recent years partly due to the possibilities of producing complex geometries in a rapid manner. Selective laser sintering (SLS) is a type of additive manufacturing technique that utilizes polymer powder and a layer-by-layer technique to build up the desired geometry. READ MORE