Essays about: "Challenges Sustainable Product Development"

Showing result 16 - 20 of 116 essays containing the words Challenges Sustainable Product Development.

1. 16. Exploring the industrial packaging of components for complex electrical products and its sustainability and circularity

   University essay from Lunds universitet/Förpackningslogistik

   Author : Tirouvaasavy Tirougnanassambandamourty; Felix Strömberg; nil nil; nil nil; [2023]
   Keywords : Technology and Engineering;

   Abstract : This master’s thesis explores the sustainability and the circularity of industrial packaging of components for complex electronic products. The research aims to gain insight into the structure of the packaging system between the suppliers and the manufacturers (EMS) and evaluate its circularity to identify the opportunities and challenges for future improvement. READ MORE

3. 17. Exploring the Possibilities of Sheet Metal Forming Via Plastic-Based Additive Manufacturing Moulding

   University essay from KTH/Produktionsutveckling

   Author : Jemal Idris Ismail; Kafeel Olanrewaju Sanni; [2023]
   Keywords : : Sheet metal formation; Additive manufacturing; mass customization; personalized production; die design; die system; FDM; DOE; FEA; product development; automotive; sustainability; cost effective; metal dies; plastic dies.; Plåtformning; Additiv tillverkning; massanpassning; personlig produktion; formdesign; formsystem; FDM; DOE; FEA; produktutveckling; fordonsindustri; hållbarhet; kostnadseffektiv; metallformar; plastformar.;

   Abstract : Additive Manufacturing (AM) has freeform fabrication capabilities of complex geometries directly from feedstock material. This can potentially enhance the efficient use of material and the cost effectiveness. It also offers design flexibility, and it is versatile. READ MORE

4. 18. Navigating Organizational Resistance Towards a Sustainable Shift : A case of bio-inspired innovation in the transportation and heavy construction industries

   University essay from Blekinge Tekniska Högskola/Institutionen för industriell ekonomi

   Author : Per-Emil Svensson; Louise Johansson; [2023]
   Keywords : Bio-inspired innovation; biomimicry; organizational resistance; sustainable product development; Bio-inspirerad innovation; biomimicry; organisatorisk tröghet;

   Abstract : Background: The world is facing environmental issues such as pollution, natural disasters, and climate change. A main cause of this is human activities such as urbanization and mining of materials. READ MORE

5. 19. Design for Disassembly and Reuse : Developing an Indicator System for Volumetric Timber Structures Based on Case Studies

   University essay from Luleå tekniska universitet/Träteknik

   Author : Sara Khanalizadehtaromi; [2023]
   Keywords : design for deconstruction; design for disassembly; timber construction; disassembly; circular economy; sustainability; volumetric timber structures; structures; DfD; Reuse; Indicator system;

   Abstract : The environmental impacts of the construction industry, and the built environment, as the end product of construction activity, are massive due to the extensive use of energy and resources. Sustainability and circular economy are recognized as the main solution to the existing environmental impacts of this industry and the main approach to the sustainable development of it. READ MORE

6. 20. Environmental analysis of asynchronous motors : A case study on the rotor and its materials

   University essay from Mälardalens universitet/Innovation och produktrealisering

   Author : Hanna Jansson; Mathilda Englöv; [2023]
   Keywords : Environmental impact; Sustainability; Recycling methods material metals; Circular economy CE; Product development.; Miljöpåverkan; Hållbarhet; Återvinningsmetoder material metaller; Cirkulär ekonomi CE; Produktutveckling;

   Abstract : Material efficiency strategies are of significant importance for the shift towards producing sustainable vehicles and Asynchronous motors (ASM), both for current and new developments. Strategies such as a lightweight design, product lifetime extension, recyclability, and a material selection process based on the three branches of sustainability (ecological, economical, and social). READ MORE