42:
480:. The process of construction is thought-out cautiously while considering all factors like safety, strength of structure, hydrodynamics, and ship arrangement. Each factor considered presents a new option for materials to consider as well as ship orientation. When the strength of the structure is considered the acts of ship collision are considered in the way that the ships structure is altered. Therefore, the properties of materials are considered carefully as applied material on the struck ship has elastic properties, the energy absorbed by the ship being struck is then deflected in the opposite direction, so both ships go through the process of rebounding to prevent further damage.
438:
406:
718:), and highly valued movable structures produced by mankind. They are typically the most efficient method of transporting the world's raw materials and products. Modern engineering on this scale is essentially a team activity conducted by specialists in their respective fields and disciplines. Naval architects integrate these activities. This demanding leadership role requires managerial qualities and the ability to bring together the often-conflicting demands of the various design constraints to produce a product which is fit for the purpose.
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design is produced. To undertake all these tasks, a naval architect must have an understanding of many branches of engineering and must be in the forefront of high technology areas. He or she must be able to effectively utilize the services provided by scientists, lawyers, accountants, and business
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Due to the complexity associated with operating in a marine environment, naval architecture is a co-operative effort between groups of technically skilled individuals who are specialists in particular fields, often coordinated by a lead naval architect. This inherent complexity also means that the
396:
The arrangement of the
Isherwood system consists of stiffening decks both side and bottom by longitudinal members, they are separated enough so they have the same distance between them as the frames and beams. This system works by spacing out the transverse members that support the longitudinal by
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The principal longitudinal elements are the deck, shell plating, inner bottom all of which are in the form of grillages, and additional longitudinal stretching to these. The dimensions of the ship are in order to create enough spacing between the stiffeners in prevention of buckling. Warships have
340:
The buoyancy force is equal to the weight of the body, in other words, the mass of the body is equal to the mass of the water displaced by the body. This adds an upward force to the body by the amount of surface area times the area displaced in order to create an equilibrium between the surface of
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While a body floats on a liquid surface it still encounters the force of gravity pushing down on it. In order to stay afloat and avoid sinking there is an opposed force acting against the body known as the hydrostatic pressures. The forces acting on the body must be of the same magnitude and same
332:
Longitudinal stability for longitudinal inclinations, the stability depends upon the distance between the center of gravity and the longitudinal meta-center. In other words, the basis in which the ship maintains its center of gravity is its distance set equally apart from both the aft and forward
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used today. A vessel was, and still is described as having a βfairβ shape. The term βfairβ is meant to denote not only a smooth transition from fore to aft but also a shape that was βright.β Determining what is βrightβ in a particular situation in the absence of definitive supporting analysis
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analytical tools available are much less evolved than those for designing aircraft, cars and even spacecraft. This is due primarily to the paucity of data on the environment the marine vehicle is required to work in and the complexity of the interaction of waves and wind on a marine structure.
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Traditionally, naval architecture has been more craft than science. The suitability of a vessel's shape was judged by looking at a half-model of a vessel or a prototype. Ungainly shapes or abrupt transitions were frowned on as being flawed. This included rigging, deck arrangements, and even
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deck, and bulkheads while still providing mutual support of the frames. Though the structure of the ship is sturdy enough to hold itself together the main force it has to overcome is longitudinal bending creating a strain against its hull, its structure must be designed so that the material is
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The stability of a ship under most conditions is able to overcome any form or restriction or resistance encountered in rough seas; however, ships have undesirable roll characteristics when the balance of oscillations in roll is two times that of oscillations in heave, thus causing the ship to
337:
line of motion in order to maintain the body at equilibrium. This description of equilibrium is only present when a freely floating body is in still water, when other conditions are present the magnitude of which these forces shifts drastically creating the swaying motion of the body.
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and structures. Naval architecture involves basic and applied research, design, development, design evaluation (classification) and calculations during all stages of the life of a marine vehicle. Preliminary design of the vessel, its detailed design,
372:. Depending on type of ship, the structure and design will vary in what material to use as well as how much of it. Some ships are made from glass reinforced plastics but the vast majority are steel with possibly some aluminium in the superstructure.
389:, but later shifted to transversely framed structure another concept in ship hull design that proved more practical. This system was later implemented on modern vessels such as tankers because of its popularity and was then named the
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The complete structure of the ship is designed with panels shaped in a rectangular form consisting of steel plating supported on four edges. Combined in a large surface area the
Grillages create the hull of the
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who is responsible for the design, classification, survey, construction, and/or repair of ships, boats, other marine vessels, and offshore structures, both commercial and military, including:
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used a longitudinal system of stiffening that many modern commercial vessels have adopted. This system was widely used in early merchant ships such as the
104:). Naval architecture also involves formulation of safety regulations and damage-control rules and the approval and certification of ship designs to meet
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In addition to this leadership role, a naval architect also has a specialist function in ensuring that a safe, economic, environmentally sound and
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While atop a liquid surface a floating body has 6 degrees of freedom in its movements, these are categorized in either translation or rotation.
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and computational data, have enabled naval architects to more accurately predict the performance of a marine vehicle. These tools are used for
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about 3 or 4 meters, with the wide spacing this causes the traverse strength needed by displacing the amount of force the bulkheads provide.
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concern resistance towards motion in water primarily caused due to flow of water around the hull. Powering calculation is done based on this.
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concerns the conditions to which the vessel is subjected while at rest in water and to its ability to remain afloat. This involves computing
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1186:"Job Family Standard for Professional Work in the Engineering and Architecture Group, U.S. Office of Personnel Management, pp. 43β45"
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of global and local strength of the vessel, vibration of the structural components and structural responses of the vessel during
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175:(the ability of a vessel to restore itself to an upright position after being inclined by wind, sea, or loading conditions).
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discipline incorporating elements of mechanical, electrical, electronic, software and safety engineering as applied to the
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depends on the material used. When steel or aluminium is used this involves welding of the plates and profiles after
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Controllability (maneuvering) involves controlling and maintaining position and direction of the vessel.
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1135:"Effects of the rebounding of a striking ship on structural crashworthiness during ship-ship collision"
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Neves, M. A. S. (2016). "Dynamic stability of ships in regular and irregular seas - An
Overview".
1057:"United States Naval Academy Seakeeping and Maneuvering Course Notes by C.Q. Judge and A. Ibrahim"
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are the main activities involved. Ship design calculations are also required for ships being
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Ships and
Science: The Birth of Naval Architecture in the Scientific Revolution, 1600β1800
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Lewis V, Edward (Ed.); (June 1989). Principles of Naval
Architecture (2nd Rev.) Vol. 1 β
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140:. The principal elements of naval architecture are detailed in the following sections.
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Bridging the Seas: The Rise of Naval
Architecture in the Industrial Age, 1800β2000
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Biran, Adrian; (2003). Ship hydrostatics and stability (1st Ed.) β
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819: β Branch of fluid mechanics that studies fluids at rest
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General Course of Study leading to Naval
Architecture degree
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Cutaway of the structure of a US Navy WWII destroyer escort
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Reconstruction of a 19th-century naval architect's office,
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International
Regulations for Preventing Collisions at Sea
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Society of Naval
Architects and Marine Engineers (SNAME)
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Pages displaying short descriptions of redirect targets
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Pages displaying short descriptions of redirect targets
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Pages displaying short descriptions of redirect targets
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Some of these vessels are amongst the largest (such as
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encompasses the art of naval architecture to this day.
100:(by means of conversion, rebuilding, modernization, or
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866: β Engineering and design of shipboard systems
848: β Engineering and design of shipboard systems
902: β Construction of ships and floating vessels
810: β Aspects of fluid mechanics involving flow
798: β Watertight buoyant body of a ship or boat
1019:Society of Naval Architects and Marine Engineers
924:Society of Naval Architects and Marine Engineers
825: β Specialised agency of the United Nations
686:, power boats, and other recreational watercraft
364:involves selection of material of construction,
116:The word "vessel" includes every description of
219:is used to move the vessel through water using
893: β Response of a vessel to sea conditions
887: β Response of a vessel to sea conditions
381:disposed as much forward and aft as possible.
235:. Some vessels are electrically powered using
136:, used or capable of being used as a means of
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1252:Dictionary of Naval Terms, from Keel to Truck
464:drawings or models, followed by erection and
187:concerns the flow of water around the ship's
128:, but also including non-displacement craft,
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167:, and other hydrostatic properties such as
92:, operation and maintenance, launching and
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497:fixtures. Subjective descriptors such as
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1087:. Oxford, England: Butterworth-Heinemann.
152:Body plan of a ship showing the hull form
774: β Vertical partition inside a ship
295:Axes of a ship and rotations around them
27:Engineering discipline of marine vessels
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341:the body and the surface of the water.
326:Roll or heel: about a fore and aft axis
323:Pitch or trim: about a transverse axis
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780: β Bulk cargo ship to carry coal
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1254:. London: G. Philip & Son, 1908.
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999:International Maritime Organization
926: β Global professional society
836: β Type of ship hull structure
823:International Maritime Organization
786: β Branch of civil engineering
1085:Introduction to Naval Architecture
670:anchor handling tug supply vessels
509:were used as a substitute for the
472:are used for other materials like
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108:and non-statutory requirements.
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946:"Careers in Naval Architecture"
409:Functional areas of a destroyer
1120:10.1016/j.oceaneng.2016.02.010
706:Cutaway of a nuclear submarine
211:Ship resistance and propulsion
207:, or through thruster tunnels.
1:
1394:Seamanship (seafaring) topics
1175:. Naval engineering brochure.
680:, pilot vessels, rescue craft
441:Shipbuilding with steel, 1973
231:etc. Engine types are mainly
1232:Ferreiro, Larrie D. (2020).
1213:Ferreiro, Larrie D. (2007).
547:Computational Fluid Dynamics
1459:Ship-to-ship cargo transfer
906:Ship classification society
279:limit of positive stability
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1171:December 26, 2008, at the
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199:, and over bodies such as
73:engineering design process
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1494:Man overboard rescue turn
1152:10.1016/j.tws.2017.02.022
829:List of maritime colleges
714:), most complex (such as
605:Passenger/vehicle ferries
735:Classification societies
569:A naval architect is an
517:Modern low-cost digital
478:glass-reinforced plastic
474:fibre reinforced plastic
470:Other joining techniques
421:, allocation of spaces,
47:Aberdeen Maritime Museum
1540:Engineering disciplines
1133:Prabowo, A. R. (2017).
674:platform supply vessels
634:and underwater vehicles
561:Naval architect at work
257:Flotation and stability
138:transportation on water
1139:Thin-Walled Structures
726:people of many kinds.
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834:Longitudinal framing
772:Bulkhead (partition)
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840:Marine architecture
784:Coastal engineering
763:Architecture portal
553:The naval architect
535:structural analysis
366:structural analysis
309:Surge: fore and aft
275:secondary stability
233:internal combustion
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1100:Ocean Engineering
864:Ocean engineering
852:Marine propulsion
796:Hull (watercraft)
716:aircraft carriers
626:aircraft carriers
492:Smooth ship lines
484:Science and craft
462:structural design
370:motions in seaway
271:initial stability
65:naval engineering
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1550:Shipbuilding
1474:Maritime law
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1414:Watchkeeping
1353:
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1307:from Commons
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958:. Retrieved
954:the original
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912:Ship motions
900:Shipbuilding
817:Hydrostatics
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660:Workboats β
609:cruise ships
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303:Translation
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287:Translations
263:ship motions
247:Ship motions
241:solar energy
165:displacement
157:Hydrostatics
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144:Hydrostatics
115:
86:construction
77:shipbuilding
64:
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59:
32:Shipbuilding
1479:Dry-docking
1274:Engineering
1250:Paasch, H.
1145:: 225β239.
1106:: 362β370.
638:Icebreakers
592:cargo ships
588:gas tankers
584:oil tankers
527:towing tank
460:as per the
452:, marking,
94:dry-docking
69:engineering
1529:Categories
1514:Sea anchor
1409:Navigation
1401:Seamanship
1321:Quotations
960:2019-08-13
932:References
885:Seakeeping
858:Naval ship
647:hovercraft
632:Submarines
622:destroyers
423:ergonomics
362:Structures
349:Structures
225:water jets
221:propellers
217:Propulsion
203:blades or
118:watercraft
1509:Anchoring
1355:Resources
1338:Textbooks
731:shipyards
723:seaworthy
678:tug boats
655:hydrofoil
519:computers
466:launching
345:capsize.
317:Rotation
201:propeller
173:stability
134:seaplanes
130:WIG craft
120:, mainly
106:statutory
1484:Ropework
1424:Pilotage
1169:Archived
749:See also
618:frigates
614:Warships
571:engineer
523:software
499:ungainly
427:capacity
161:buoyancy
98:modified
67:, is an
1504:Mooring
1499:Buoyage
1434:Sailing
1108:Bibcode
1039:"EN342"
458:bending
454:cutting
450:rolling
237:nuclear
1260:Portal
1240:
1221:
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981:
743:navies
694:subsea
684:Yachts
662:barges
505:, and
277:, and
205:rudder
195:, and
102:repair
90:trials
1489:Knots
1304:Media
1196:(PDF)
1189:(PDF)
657:craft
229:sails
197:stern
126:boats
122:ships
63:, or
1238:ISBN
1219:ISBN
1023:ISBN
1003:ISBN
979:ISBN
692:and
539:RINA
507:fine
503:full
476:and
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376:ship
189:hull
169:trim
132:and
124:and
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239:or
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20:)
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