Sailing boats
Passenger tall ships
Project number/descprition | Main features | |
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EQUATOR CAT 66 Type: Catamaran sailing craft L bef - m Δ max : - Net area of sails: - m 2 |
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- Concept design of a 65' sailing catamaran made of GRP sandwich material |
EQUATOR CAT 65 Type: Catamaran sailing craft L bef 19,95 m Δ max : 30 Net area of sails: 278 m 2 |
Sailling pleasure yachts
Project number/description | Main features | |
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- Analyses and inclining experiment according to ISO 12217-2 regulation |
Type: Custom-built motor craft L bef = 14,5 m Δ max = 14,3 Net area of sails: 36 m 2 |
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APS38-000-00 Analyses and inclining experiment according to ISO 12217-2 regulation |
APS-CO38 Type: Sailing craft L bef = 11,4 m Δ max = 8,1 Net area of sails: 60 m 2 |
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EQ45FA_000_000 Concept desing of a 45' performance wood sailing craft |
EQ45FA Type: Cutter L bef = 13,716 m Δ max = 10,768 Net area of sails: 118 m 2 |
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- Strength calculation of rigging for a FPC 30 T class sailing craft |
FPC 30 TS Type: Sailing craft L bef = 9,15 m Δ max = - Net area of sails: 36 m 2 |
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- Strength calculation of rigging for a FPC 30 TS class sailing craft |
FPC 30 TS Type: Sailing craft L bef = 9,15 m Δ max = - Net area of sails: 36 m 2 |
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- Strength calculation of rigging for a FPC 30 TS class sailing craft |
FPC 30 TS Type: Sailing craft L bef = 9,15 m Δ max = - Net area of sails: 36 m 2 |
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- Strength calculation of rigging for a FPC 30 TS class sailing craft |
FPC 30 TS Type: Sailing craft L bef = 9,15 m Δ max = - Net area of sails: 36 m 2 |
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- Strength calculation of rigging for a FPC 30 TS class sailing craft |
FPC 30 TS Type: Sailing craft L bef = 9,15 m Δ max = - Net area of sails: 36 m 2 |
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Etalon 8 Type: Sailing craft L bef = 8 m Δ max = - Net area of sails: - m 2 |
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- Design of a 60' leasure craft with sandwich construction |
Type: L bef = - m Δ max = - Net area of sails: - m 2 |
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- Modification of mast and keel |
Type: Sailing craft L bef = - m Δ max = - Net area of sails: - m 2 |
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- Rudder design |
Equator 44 Type: Sailing craft L bef = - m Δ max = - Net area of sails: - m 2 |
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- Partial inclining experiment |
Equator 44 Type: Sailing craft L bef = - m Δ max = - Net area of sails: - m 2 |
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EQ44-000-000 Keel design |
Equator 44 Type: Sailing craft L bef = - m Δ max = - Net area of sails: - m 2 |
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- Hull fairing, plate development, initial stability, equillibrium and mast position calculations |
Jolle 30 Type: Sailing craft L bef = 9,64 m Δ max = - Net area of sails: 38 m 2 |
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- Mast strength calculation |
DIXIE 35 Type: Sailing craft L bef = - m Δ max = - Net area of sails: 40 m 2 |
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DX30-020-00 Stability, equillibrium, mast position calculation, strength calculation of mast and hull, laminating plan |
DIXIE 30 Type: Sailing craft L bef = - m Δ max = - Net area of sails: 30 m 2 |
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DX25-020-00 Stability, equillibrium, mast position calculation, strength calculation of mast and hull, laminating plan |
DIXIE 25 Type: Sailing craft L bef = - m Δ max = - Net area of sails: - m 2 |
Recreational boats
Project number/description | Main features | |
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- Analyses and inclining experiment according to ISO 12217-2 regulation |
Type: Aqua Spider waterbike L bef = 3,9 m Δ max = 136 |