Essays about: "Additive tillverkningsteknik"

Showing result 1 - 5 of 9 essays containing the words Additive tillverkningsteknik.

1. 1. Participatory design of a 3D-printed furniture concept for learning spaces : A study of large-scale additive manufacturing opportunities and limitations

   University essay from Luleå tekniska universitet/Institutionen för ekonomi, teknik, konst och samhälle

   Author : Herman Lundgren; [2021]
   Keywords : large-scale additive manufacturing; furniture development; semiotics; sustainability; co-design; learning environments; design thinking; storskalig additiv tillverkning; möbelformgivning; semiotik; hållbarhet; co-design; läromiljö; design thinking;

   Abstract : Today, learning spaces are stuck in the industrial age with rows of desks and chairs. Differentiated teaching and personalised learning are not effective in traditional learning spaces and should focus on creating future classrooms (Kariippanon, 2017). READ MORE

3. 2. Metal Powder Benchmarking

   University essay from KTH/Materialvetenskap

   Author : Ananthakrishna Sajithkumar; [2021]
   Keywords : Selective laser melting; powder characterisation; flow behaviour; Selektiv lasersmältning; karakterisering av pulver; flödesbeteende;

   Abstract : Metal  additive  manufacturing  technologies  are  widely  employed  in  the aerospace, automotive  and  medical  industries. Selective  laser  melting  is  a type  of  metal additive manufacturing process in which powders are consolidated layer by layer in a predefined pattern with the help of a laser beam to create a component. READ MORE

4. 3. Numerical and experimental investigations of gas jet used in atomisation of metal powders

   University essay from KTH/Materialvetenskap

   Author : Arun Kamalasekaran; [2020]
   Keywords : ;

   Abstract : The environmental impact caused by the traditional production techniques has led to increased research in the field of alternative production techniques such as additive manufacturing. However, the environmental sustainability of the manufacturing techniques that produce and supply powders to the additive manufacturing process can be improved significantly. READ MORE

5. 4. Additive Manufacturing Applications for Suspension Systems : Part selection, concept development, and design

   University essay from Linköpings universitet/Produktrealisering; Linköpings universitet/Maskinkonstruktion

   Author : Morgan Waagaard; Johan Persson; [2020]
   Keywords : AM; Additive Manufacturing; 3D printing; DfAM; Design for Additive Manufacturing; SLM; Selective Laser Melting; L-PBF; Laser Powder Bed Fusion; Topology Optimization; Design Optimization; titanium alloy; Suspension Systems; Automotive Applications; Racing; Motorcycle; Motorbike; Moto Racing; Roadracing; Additiv tillverkning; Additiv Tillverkningsteknik; Friformsframställning; Topologioptimering; Designoptimering; Titanlegering; Hjulupphängning; Fjädringssystem; Fordonsteknik; Fordonsapplikationer; Motorcykel; Motorcykelracing; Motorsport;

   Abstract : This project was conducted as a case study at Öhlins Racing AB, a manufacturer of suspension systems for automotive applications. Öhlins usually manufacture their components by traditional methods such as forging, casting, and machining. READ MORE

6. 5. Comparative Life Cycle Assessments of Conventional Products and 3D-Printed Wood-Plastic Composite Alternatives

   University essay from KTH/Materialvetenskap

   Author : Sangho Kim; [2020]
   Keywords : Life cycle assessment; Wood-plastic composite; Additive manufacturing; 3D printing; Environmental impact; Global warming; Livscykelanalys; Träplastkomposit; Additive tillverkningsteknik; Friformsframställning; Miljöpåverkan; Global uppvärmning;

   Abstract : As additive manufacturing gains market potential as a mainstream process in various sectors of industry, there is a growing need for addressing environmental aspects of this technology and the materials associated with it. In this master thesis, comparative life cycle assessments (LCAs) from cradle to grave between the conventional products and 3D-printed alternatives made of wood-plastic composite (WPC) were conducted based on the ISO 14044:2006 standard. READ MORE