Designing Sustainable Alpine Skis : Combining user needs with ecological, social, and economical sustainablility

Barreflod, Tom-Oskar, Nilsson, Matilda

January 2020

As alpine skiing is becoming more and more popular the need for sustainable products are increasing in order to enable great skiing and snowy winters in the future. The ski industry is unfortunately far behind many other industries when it comes to sustainability and the shift towards sustainable skis is going slow. Norse Skis is a unique ski manufacturer as they have a sustainable profile and are always in the lookout for new possibilities to take that forward. The goal in this master thesis project is to develop a pair of sustainable skis that will widen Norse Skis’ product catalog. The project was conducted in collaboration with Norse Skis as a master thesis project within the degree of Industrial Design Engineering at Luleå University of Technology. During the development of the skis, the user-centered design process Design Thinking Process was used. The process was divided into three phases; Inspiration, Ideation, and Implementation. During the design process, most of the energy was put on creating a ski that meets the user needs and is as sustainable as possible. Through constant dialog with the users, feedback and evaluation were gained to customize the product to the needs and opinions of the users. To develop skis that are as sustainable as possible, the project has had its base in the three aspects of sustainability; ecological, economic, and social, which are defined in the Brundtland report (World Commission on Environment and Development, 1987).  At the beginning of the project, a deep understanding of alpine skis and alpine skiing was gathered. This was followed by a thorough examination of the users through surveys and user observations. It was identified that the users spent most of their time skiing on the piste, but had a vision of being an off-piste skier. This led to the conclusion of designing a ski that is high performing on-piste but also gives the user the possibility to great off-piste skiing. In a benchmarking, Norse Skis’ current skis were compared to their competitors’ to identify Norse Skis’ strengths and what could be improved. When an understanding of the product and the users was gained, the project proceeded into the ideation phase. In the ideation phase solutions on lengths, shapes, names, colors, graphics, and materials were created. Through user surveys, three concepts were created which eventually resulted in one final design. The project result is a pair of 90 mm wide skis with focus on sustainability that are high performing and playful in the piste while providing a nice off-piste ride as well. From the social aspect, they are created with the skier in mind instead of either men, women, or some specific age group. By using materials that are more environmentally friendly than what is used in Norse Skis’ skis today and that either have the same or lower price, the skis are more sustainable from both an ecologic and economic perspective. The design has been approved by the users which led to the recommendation of broadening Norse Skis’ current product catalog with the ski that was the result of this master thesis project. / Samtidigt som skidåkning blir mer och mer populärt för var dag som går så ökar behovet av hållbara produkter som möjliggör framtida snöiga vintrar och bra skidåkning. Tyvärr ligger dagens skidtillverkare långt bakom många andra branscher när det kommer till hållbarhet och skiftet mot hållbara skidor går trögt. Norse Skis är en unik skidtillverkare då de har en hållbar profil och ständigt letar efter möjligheter att komma ännu längre fram i utvecklingen. Målet i detta examensarbete är att utveckla ett par hållbara skidor som kan bredda Norse Skis produktkatalog. Projektet utfördes i samarbete med Norse Skis som ett examensarbete på Civilingenjör Teknisk Design med inriktning produktdesign vid Luleå Tekniska Universitet. Under utvecklingen av skidorna användes den användarcentrerade designprocessen Design Thinking Process som är uppdelad i tre faser; Inspiration, Ideation, och Implementation. Under designprocessen låg fokus på att skapa en skida som uppfyller användarbehoven och samtidigt är så hållbar som möjligt. Genom att hela tiden återkoppla med användarna för utvärdering och feedback kunde produkten anpassas efter deras behov och tycke. För att utveckla en så hållbara skida som möjligt har projektet utgått från de tre perspektiven av hållbarhet; ekologisk, ekonomisk, och social som identifieras i Brundtlandsrapporten (World Commission on Environment and Development, 1987).  I projektets startskede införskaffades en djup förståelse alpina skidor och alpin skidåkning. Detta följdes av djupdykning i användaren genom enkäter och användarobservationer. Det identifierades att användaren spenderar mest tid i pisten, men har en vision om att vara en off-pist åkare. Detta ledde fram till slutsatsen att designa en skida som är högpresterande i pisten med också ger användaren möjlighet till bra off-pist åkning. I en benchmarking jämfördes sedan Norse Skis nuvarande skidor med konkurrenternas för att identifiera Norse Skis styrkor och vad som kunde göras bättre. När en förståelse över produkten och användarna skapats gick projektet in i idégeneringsfasen. Där skapade olika lösningsförslag på längder, former, namn, färg, grafik, och material. Genom användarundersökningar kunde tre slutkoncept tas fram som slutligen resulterade i ett slutgiligt resultat. Projektresultatet är ett par 90 mm breda skidor med fokus på hållbarhet som är högpresterande och lekfulla i pisten som även ger en härlig åkning utanför. Ur den sociala aspekten är de gjorda för skidåkare istället för enbart män, kvinnor eller någon specifik åldersgrupp. Genom användning av material som är miljövänligare än de som Norse Skis tidigare använt och antingen har samma eller lägre pris så är skidor både hållbarare ur både ett ekologisk och ett ekonomiskt perspektiv. Designen har bekräftats av användarna vilket ledde till att rekommendationen att bredda Norses Skis produktkatalog med skidorna som var resultatet av detta examensarbete.

Product Development

Product Design

Industrial Design Engineering

Sustainability

Sustainable Product Development

User-centered Design

Alpine Skis

Norm-Creative design

Produktutveckling

Produktdesign

Teknisk Design

Hållbarhet

Hållbar Produktutveckling

Användarcentrerad design

Alpina skidor

Normkreativ design

Other Engineering and Technologies

Annan teknik

Design

Design

Glide Quality in Cross-Country Skiing : The Topographical and Frictional Impact of the Stone Grind

Johansson, Martin

January 2022

The Swedish Winter Olympic team is one of the strongest Olympic teams in theworld, and the majority of the team’s success comes from ski-related sports. So howcan the Swedish team remain, and maybe even accelerate, its competitive advantage? The answer is science. In order to narrow down the broad field that is equipment development, this thesishad the purpose to examine the stone grind’s impact on friction between the ski andthe snow. To achieve this purpose, the project was designed to answer these threequestions: • How does the ski base impact the friction between the ski and the snow? • How do the stone grind’s parameters impact the ski base? • How do the stone grind’s parameters impact the friction between the ski andthe snow? To answer these questions, a total of three pilot tests were done before the finalfull-scale experiment. The method to strategically test the parameters of the stonegrind was to use a full two-level factorial design, with a total of three stone grindparameters being investigated. Those parameters were: Cutting Depth, Line Density,and Wheel Pressure. The skis were tested in Arctic Fall’s indoor facilities where theskis were tested with a winch set-up to get the skis up to a desired speed, and thedata collected from the test were speed data from each of the skis. This speed datawould then be used to calculate the coefficient of friction acting between the ski andthe snow. To understand the stone grinds parameters on the ski base, the ski basesurfaces were measured after the skis were grounded, to build a regression modelconsisting of stone grind parameters as independent variables, and surface parametersbeing the dependent variables. A model was created suggesting that in the conditions the tests were executed, thesurface parameters Sa should be minimized and Sm should be maximized to achievea minimized coefficient of friction. A more generalisable model to impact the surfaceparameters Sa and Sm was also generated. It suggests that to impact Sa and Sm, itis the stone grind parameter Cutting Depth and Line Density that should be adjustedto achieve a desirable ski base structure.

Friction

Stone grind

Ski development

Snow

Coefficient of Friction

Cross-Country Skiing

Ski

Friktion

Stenslip

Skidutveckling

Snö

Friktionskoefficient

Skidor

Materials Engineering

Materialteknik

Sport and Fitness Sciences

Idrottsvetenskap

Reliability and Maintenance

Tillförlitlighets- och kvalitetsteknik