The aim of the present research is to extend the knowledge of mechanical properties both on single components and on complete structure employed for snowboard. Flexural and torsion tests are performed to acquire important comparison parameters between snowboard sandwich structures that differ for the core material employed (wood, PVC foam core). A simplified FEM model is proposed to simulate the flexural tests of the sandwich structure showing good predictive capability
The project involved the design and manufacturing of two snowboards. Each snowboard was manufactured...
International audienceThe quasi-static behavior of innovative wood based sandwich structures with pl...
A recently developed glass fibre reinforced PU-foam sandwich panel is mechanically characterized in ...
The aim of the present research is to extend the knowledge of mechanical properties both on single c...
A new model to calculate the key snowboard properties of bending and torsional stiffness has been de...
AbstractA new model to calculate the key snowboard properties of bending and torsional stiffness has...
The bending and torsional stiffness distributions of a snowboard are crucial to its on-snow feel and...
Snowboarding as one of the fastest developing sports nowadays forces manufacturers to improve equipm...
This diploma thesis describes the comparison of two different kinds of structures of snowboard woode...
A series of experimental tests have been carried out on three types of novel sandwich panels mainly ...
Article deals with the study of the flexural limit state of sandwich structures based on fiberglass ...
An Experimental and numerical study on the flexural behavior of new types of sandwich structures wit...
This bachelor’s thesis focuses on the analysis of material model core sandwich structures. The behav...
AbstractThe ski manufacturing industry is characterized by short product life cycles and high innova...
The first part of bachelor’s thesis is devoted to basic theoretical knowledge about usage of sandwic...
The project involved the design and manufacturing of two snowboards. Each snowboard was manufactured...
International audienceThe quasi-static behavior of innovative wood based sandwich structures with pl...
A recently developed glass fibre reinforced PU-foam sandwich panel is mechanically characterized in ...
The aim of the present research is to extend the knowledge of mechanical properties both on single c...
A new model to calculate the key snowboard properties of bending and torsional stiffness has been de...
AbstractA new model to calculate the key snowboard properties of bending and torsional stiffness has...
The bending and torsional stiffness distributions of a snowboard are crucial to its on-snow feel and...
Snowboarding as one of the fastest developing sports nowadays forces manufacturers to improve equipm...
This diploma thesis describes the comparison of two different kinds of structures of snowboard woode...
A series of experimental tests have been carried out on three types of novel sandwich panels mainly ...
Article deals with the study of the flexural limit state of sandwich structures based on fiberglass ...
An Experimental and numerical study on the flexural behavior of new types of sandwich structures wit...
This bachelor’s thesis focuses on the analysis of material model core sandwich structures. The behav...
AbstractThe ski manufacturing industry is characterized by short product life cycles and high innova...
The first part of bachelor’s thesis is devoted to basic theoretical knowledge about usage of sandwic...
The project involved the design and manufacturing of two snowboards. Each snowboard was manufactured...
International audienceThe quasi-static behavior of innovative wood based sandwich structures with pl...
A recently developed glass fibre reinforced PU-foam sandwich panel is mechanically characterized in ...