SAILART 18 Specifications
Main Specs
| Length, m | 6.1 |
| Beam, m | 2.3 |
| Draft, m | 1.3 |
| Displacement, kg | 600 |
Classification
| Hull Type | Monohull, Swing keel w/outboard rudder |
| Type by Usage | Racing |
| CE Class | C - Coastal waters |
| Hull Material | Fiberglass / GRP, GRP w/ foam core |
| Design | Modern / Mainstream |
| Deck Arrangement | With mediterranean cockpit |
Rigging and Keel
| Rig | Fractional Sloop, Single-masted (sloop) |
| Keel | Lead keel, Lifting keel |
| Max Draft, m | 1.3 |
| Min Draft, m | 0.6 |
Cabins & Passenger Capacity
| Max People on Board | 4 |
| Cabins | 1 |
| Berths for Guests | 2 |
Manufacturer Information
| Shipyard | SAILART |
| Country | Germany |
| Model | 18 |
| Association | micro-class.org |
| Period of manufacturing | 1997, 2020 - 2018 |
Technical Specs
| LOA, m | 5.8 |
| LOD, m | 5.5 |
| Sail Area (S.A.), m² | 18.5 |
| Ballast, kg | 120 |
Sailboat Calculations
S.A. / Displacement Formula
SA/D = SA (ft²) ÷ [Disp (lbs) / 64]^0.666
A sail area/displacement ratio below 16 would be considered under powered; 16 to 20 would indicate reasonably good performance; above 20 suggests relatively high performance.
SA/D = SA (ft²) ÷ [Disp (lbs) / 64]^0.666
A sail area/displacement ratio below 16 would be considered under powered; 16 to 20 would indicate reasonably good performance; above 20 suggests relatively high performance.
Ballast / Displacement Formula
Bal./Disp = ballast (lbs)/ displacement (lbs)*100
A Ballast/Displacement ratio of 40 or more translates into a stiffer, more powerful boat that will be better able to stand up to the wind.
Bal./Disp = ballast (lbs)/ displacement (lbs)*100
A Ballast/Displacement ratio of 40 or more translates into a stiffer, more powerful boat that will be better able to stand up to the wind.
Capsize Screening Formula
CSF = Beam ÷ (Disp in cubic ft)^(1/3)
Designed to determine if a boat has blue water capability. The CSF compares beam with displacement since excess beam contributes to capsize and heavy displacement reduces capsize vulnerability. The boat is better suited for ocean passages (vs coastal cruising) if the result of the calculation is 2.0 or less. The lower the better.
CSF = Beam ÷ (Disp in cubic ft)^(1/3)
Designed to determine if a boat has blue water capability. The CSF compares beam with displacement since excess beam contributes to capsize and heavy displacement reduces capsize vulnerability. The boat is better suited for ocean passages (vs coastal cruising) if the result of the calculation is 2.0 or less. The lower the better.
| S.A. / Displacement | 26.49 |
| Ballast / Displacement, % | 20.00 |
| Capsize Screening Formula | 2.75 |
