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CATEGORIES
Base Ptex
Composite Fabrics
DIY Kits
Epoxy resin
Metal Edges, Inserts, VDS
Sidewalls and Filler
Topsheet
Vacuum Bagging
Wood core
HOW TO
How to work with our materials…
How to Build a DIY Skis or Snowbaord
Quick instruction for beginners
Making a press – supplies
Type of plastics: topsheet and base types
Skis and Snowboard ptex base
Sintered base handling for skis and snowboards
Binding areas and improving insert durability
How to turn the ski and snowboard ptex base: Sanded vs. Structured side
Sanding and Flaming ski and snowboard Sidewalls or tip filler material
Printing Graphics on a topsheet or Base
Graphics Sublimation/heat transfer on topsheet and base
‘Making of’ video
SKi & Snowboard & Kiteboard DIY materials build stock Update
SHOP
Shipping and Returns
Delivery & Shipping, Prices
Terms and conditions and privacy policy
Payment options and details
Shipping and Returns
SIMULATOR
Simulator
Design software for skis and snowboard
Downhill Giant Slalom GS and Slalom SL ski design
ABOUT
Contact Us
About Us :)
CATEGORIES
Base Ptex
Composite Fabrics
DIY Kits
Epoxy resin
Metal Edges, Inserts, VDS
Sidewalls and Filler
Topsheet
Vacuum Bagging
Wood core
HOW TO
How to work with our materials…
How to Build a DIY Skis or Snowbaord
Quick instruction for beginners
Making a press – supplies
Type of plastics: topsheet and base types
Skis and Snowboard ptex base
Sintered base handling for skis and snowboards
Binding areas and improving insert durability
How to turn the ski and snowboard ptex base: Sanded vs. Structured side
Sanding and Flaming ski and snowboard Sidewalls or tip filler material
Printing Graphics on a topsheet or Base
Graphics Sublimation/heat transfer on topsheet and base
‘Making of’ video
SKi & Snowboard & Kiteboard DIY materials build stock Update
SHOP
Shipping and Returns
Delivery & Shipping, Prices
Terms and conditions and privacy policy
Payment options and details
Shipping and Returns
SIMULATOR
Simulator
Design software for skis and snowboard
Downhill Giant Slalom GS and Slalom SL ski design
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Ski Calculator
License Key:
Geometry
Composite,Epoxy and Fiber
Core and Edge
Load
Define the geometry
Middle width
(mm)
Tip width
(mm)
Tail width
(mm)
Board concave in mm
(mm)
Core thickness profile (mm)
Position along the length of 'core thickness profile' (mm)
Mass corection (topsheet, inserts.)
(kg)
Preview Geometry
Select composite parameters
Define the fabric density 0 degree
(kg/m^3)
Define the fabric density +/-45 degree
(kg/m^3)
Fabric weight 0 degree
(kg/m2)
Fabric weight +/-45 degree
(kg/m2)
Fabric Y modulus 0 degree
(N/mm^2 - MPa)
Fabric Y modulus +/-45 degree
(N/mm^2 - MPa)
Glass
Density = 2600
Y modulus = 75000
Carbon
Density = 1700
Y modulus = 235000
Basalt
Density = 2700
Y modulus = 88000
Advanced Parameters
Select epoxy and fiber parameters
Define the ratio of total fiber over total
Define epoxy density (20 degree)
(kg/m^3)
Define epoxy young modulus
(N/mm^2 - MPa)
Select Core parameter
Core density
(kg/m^3)
Core young modulus Mpa
(N/mm2)
Select edge parameters
Steel edge thickness
(mm)
Steel edge width
(mm)
Select sidewall parameters
Sidewall width
(mm)
Sidewall density
(kg/m^3)
Paulownia
Density = 300
Y modulus = 5000
Poplar
Density = 350-500
Y modulus = 8800
Birch
Density = 610
Y modulus = 14000
Define the load position
Load begin (along the length)
(mm)
Load end (along the length)
(mm)
Load magnitude
Select the load type
Center loading
Uniform loading
Foot loading
