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Casting

February 08, 2023

For molding plastics, see Molding (process).
For other uses, see Casting (disambiguation).

Casting is a manufacturing process in which a liquid material is usually poured into a mold, which contains a hollow cavity of the desired shape, and then allowed to solidify. The solidified part is also known as a casting, which is ejected or broken out of the mold to complete the process. Casting materials are usually metals or various time setting materials that cure after mixing two or more components together; examples are epoxy, concrete, plaster and clay. Casting is most often used for making complex shapes that would be otherwise difficult or uneconomical to make by other methods. Heavy equipment like machine tool beds, ships' propellers, etc. can be cast easily in the required size, rather than fabricating by joining several small pieces.[1] Casting is a 7,000-year-old process. The oldest surviving casting is a copper frog from 3200 BC.[2]

Cast iron casting

History

Throughout history, metal casting has been used to make tools, weapons, and religious objects. Metal casting history and development can be traced back to Southern Asia (China, India, Pakistan, etc). [3] Southern Asia traditions and religions relied heavily on statue and relic castings.[4] These items were frequently made from a copper alloy laced with lead.[5] Since the beginning of metallurgy the majority of castings were simple one to two piece molds fashioned from either stone or ceramics. However, there is evidence of lost wax castings in numerous ancient civilizations.[4]

 
Dancing girl of Mohenjo-daro

The lost wax process originated in ancient Mesopotamia. The earliest known record of lost-wax casting is a clay tablet written in cuneiform in the ancient city of Sparta, Babylon, which specifically records how much wax is needed to cast a key.[6] The earliest-known castings in the global archaeological record were made in open stone molds.[7] There are two types of lost wax methods, direct lost wax method and indirect lost wax method. The direct molding method is to make the wax material into the same wax mold as the casting by hand or other tools; the indirect molding method is to make the wax mold through the mold. The direct molding method requires craftsmen to have a high technical level, otherwise the quality of castings cannot be guaranteed. However, the limitation of manual direct molding is that its efficiency is too low to achieve mass production. In this regard, indirect moulding has advantages. In indirect moulding, artisans usually make moulds from stone, wood, clay or other plastic materials.[8]

Early civilizations discovered lead aided in the fluidity of molten copper, allowing them to cast more intricate designs. For example, the dancing girl of Mohenjo-daro is a copper alloy casting that most likely utilizes the lost wax technique.[4] Lost wax casting can be dated back to 4000 BC or the Chalcolithic period.[4] One of the oldest studied examples of this technique is a 6,000-year old amulet from Indus valley civilization.[9]

India is attributed as one of the first civilizations to use casting methods to mass produce coins. Around the middle of the first millennium BC (1000 BC - 1 BC), coins used were made from silver but as the millennium progressed the coins shifted to a cast copper alloy.[4] New technology was developed to mass produce the new copper coins. Introduced was a multi piece stackable coin template mold. Multiple molds were placed on top of one another into a clay cylinder so molten metal could be poured down the center, filling and solidifying in the open spaces.[4] This process allowed one hundred coins to be produced simultaneously.[4]

In the Middle East and West Africa the lost wax technique was used very early in their metallurgy traditions while China adopted it much later. In Western Europe lost wax techniques are considered to have been hardly used especially in comparison to that of the Indus valley civilization.[4] There were no pieces of lost wax found in the capital of Anyang during the Shane dynasty (1600-1040 BC) while a large amount (100,000 pieces) of piece-mould fragments were found. This led to the conclusion that lost wax was not performed in the capital during this dynasty. However, the discovery of a mask made using the investment moulding dated at around 1300 BC indicated that the lost wax technique may have influenced other regions in China.[10]

Historians debate the origin of the development of the cannon but most evidence points to Turkey and Central Asia in the 18th and 19th century. The casting process of a cannon is a bit more complex with the use of a clay core, a template which has clay moulded around it and then broken out followed by an assembly in a casting pit that involves binding the casting with iron bands.[4]

Types

Main article: List of manufacturing processes § Casting

Metal

 
Judenplatz Holocaust Memorial (Nameless Library), by Rachel Whiteread. Concrete cast of books on library shelves turned inside out.
Main article: Casting (metalworking)

In metalworking, metal is heated until it becomes liquid and is then poured into a mold. The mold is a hollow cavity that includes the desired shape, but the mold also includes runners and risers that enable the metal to fill the mold. The mold and the metal are then cooled until the metal solidifies. The solidified part (the casting) is then recovered from the mold. Subsequent operations remove excess material caused by the casting process (such as the runners and risers).

Plaster, concrete, or plastic resin

Main article: Resin casting

Plaster and other chemical curing materials such as concrete and plastic resin may be cast using single-use waste molds as noted above, multiple-use 'piece' molds, or molds made of small rigid pieces or of flexible material such as latex rubber (which is in turn supported by an exterior mold). When casting plaster or concrete, the material surface is flat and lacks transparency. Often topical treatments are applied to the surface. For example, painting and etching can be used in a way that give the appearance of metal or stone. Alternatively, the material is altered in its initial casting process and may contain colored sand so as to give an appearance of stone. By casting concrete, rather than plaster, it is possible to create sculptures, fountains, or seating for outdoor use. A simulation of high-quality marble may be made using certain chemically-set plastic resins (for example epoxy or polyester which are thermosetting polymers) with powdered stone added for coloration, often with multiple colors worked in. The latter is a common means of making washstands, washstand tops and shower stalls, with the skilled working of multiple colors resulting in simulated staining patterns as is often found in natural marble or travertine.

Fettling

Raw castings often contain irregularities caused by seams and imperfections in the molds,[10] as well as access ports for pouring material into the molds.[11] The process of cutting, grinding, shaving or sanding away these unwanted bits is called "fettling".[12][13] In modern times robotic processes have been developed to perform some of the more repetitive parts of the fettling process,[14] but historically fettlers carried out this arduous work manually,[5] and often in conditions dangerous to their health.[15] Fettling can add significantly to the cost of the resulting product, and designers of molds seek to minimize it through the shape of the mold, the material being cast, and sometimes by including decorative elements.[16][10]

Casting process simulation

Casting process simulation uses numerical methods to calculate cast component quality considering mold filling, solidification and cooling, and provides a quantitative prediction of casting mechanical properties, thermal stresses and distortion. Simulation accurately describes a cast component's quality up-front before production starts. The casting rigging can be designed with respect to the required component properties. This has benefits beyond a reduction in pre-production sampling, as the precise layout of the complete casting system also leads to energy, material, and tooling savings.

The software supports the user in component design, the determination of melting practice and casting methoding through to pattern and mold making, heat treatment, and finishing. This saves costs along the entire casting manufacturing route. Casting process simulation was initially developed at universities starting from the early '70s, mainly in Europe and in the U.S., and is regarded as the most important innovation in casting technology over the last 50 years. Since the late '80s, commercial programs (such as AutoCAST and MAGMA) are available which make it possible for foundries to gain new insight into what is happening inside the mold or die during the casting process.

See also

  1. Centrifugal casting (industrial) – Casting technique that is typically used to cast thin-walled cylinders
  2. Core plug – Closure for sand casting core holes on water-cooled internal combustion engine blocks
  3. Die casting – Metal casting process
  4. Glass casting – Process in which glass objects are cast by directing molten glass into a mould where it solidifies
  5. Investment casting – Industrial process based on lost-wax casting
  6. Lost-foam casting – Type of evaporative-pattern casting process
  7. Lost-wax casting – Process by which a duplicate metal sculpture is cast from an original sculpture
  8. Molding (process) – Shaping a liquid or plastic material by making it conform to a more rigid mold
  9. Plaster Casting (Process) [17] - Sand casting process with use of Plaster to fill gaps
  10. Permanent mold casting – Metal casting process that employs reusable molds
  11. Rapid casting – Use of 3D printing to create disposable patterns
  12. Sand casting – Metal casting process using sand as the mold material
  13. Slip casting – Technique for forming pottery
  14. Squeeze casting – Casting method that applies very high pressure to the cooling metal

References

  1. ^ Degarmo, E. Paul; Black, J T.; Kohser, Ronald A. (2003), Materials and Processes in Manufacturing (9th ed.), Wiley, p. 277, ISBN 0-471-65653-4
  2. ^ Ravi, B. (2005), Metal Casting: Computer-Aided Design and Analysis (1st ed.), PHI, ISBN 81-203-2726-8
  3. ^ Davey, Christopher J. (2009). J. Mei; Th. Rehren (eds.). The early history of lost-wax casting. Metallurgy and Civilisation: Eurasia and Beyond. London. pp. 147–154.
  4. ^ a b c d e f g h i Craddock, Paul T (October 8, 2014). "The Metal Casting Traditions of South Asia: Continuity and Innovation". Indian Journal of History of Science. 50 (1): 55–82.
  5. ^ a b Jane L. Bassett; Peggy Fogelman; David A. Scott; Ronald C. Schmidtling (2008). The Craftsman Revealed: Adriaen de Vries, Sculptor in Bronze. Getty Publications. pp. 269–. ISBN 978-0-89236-919-5.
  6. ^ Hunt, L. B. (1980). The Long History of Lost Wax Casting, Gold Bulletin. p. 66-79.
  7. ^ Peng, Peng (2020). Metalworking in Bronze Age China: The Lost-Wax Process. Cambria Press. p. 5.
  8. ^ Feinberg, Wilburt (1983). Lost-wax Casting: A practitioners manual.
  9. ^ Thoury, M.; et al. (2016). "High spatial dynamics-photoluminescence imaging reveals the metallurgy of the earliest lost-wax cast object". Nature Communications. 7. doi:10.1038/ncomms13356.
  10. ^ a b c Gordon Elliott (2006). Aspects of Ceramic History: A Series of Papers Focusing on the Ceramic Artifact As Evidence of Cultural and Technical Development. Gordon Elliott. pp. 52–. ISBN 978-0-9557690-0-9.
  11. ^ B. Ravi (1 January 2005). Metal Casting: Computer-Aided Design and Analysis. PHI Learning Pvt. Ltd. pp. 92–. ISBN 978-81-203-2726-9.
  12. ^ T F Waters (11 September 2002). Fundamentals of Manufacturing For Engineers. CRC Press. pp. 17–. ISBN 978-0-203-50018-7.
  13. ^ James T. Frane (1994). Craftsman's Illustrated Dictionary of Construction Terms. Craftsman Book Company. pp. 126–. ISBN 978-1-57218-008-6.
  14. ^ The British Foundryman. 1986. p. 80.
  15. ^ Sidney Pollard (1993). A History of Labour in Sheffield. Gregg Revivals. pp. 284–285. ISBN 978-0-7512-0215-1.
  16. ^ Iron and Steel. Louis Cassier. 1971. p. 80.
  17. ^ "Plaster Casting process". from the original on 2020-05-26.

Further reading

 
Wikimedia Commons has media related to Casting.
  • Campbell, John (2003), Casting (2nd ed.), Butterworth-Heinemann, ISBN 0-7506-4790-6.


February 08, 2023
casting, molding, plastics, molding, process, other, uses, disambiguation, manufacturing, process, which, liquid, material, usually, poured, into, mold, which, contains, hollow, cavity, desired, shape, then, allowed, solidify, solidified, part, also, known, ca. For molding plastics see Molding process For other uses see Casting disambiguation Casting is a manufacturing process in which a liquid material is usually poured into a mold which contains a hollow cavity of the desired shape and then allowed to solidify The solidified part is also known as a casting which is ejected or broken out of the mold to complete the process Casting materials are usually metals or various time setting materials that cure after mixing two or more components together examples are epoxy concrete plaster and clay Casting is most often used for making complex shapes that would be otherwise difficult or uneconomical to make by other methods Heavy equipment like machine tool beds ships propellers etc can be cast easily in the required size rather than fabricating by joining several small pieces 1 Casting is a 7 000 year old process The oldest surviving casting is a copper frog from 3200 BC 2 Cast iron casting Contents 1 History 2 Types 2 1 Metal 2 2 Plaster concrete or plastic resin 3 Fettling 4 Casting process simulation 5 See also 6 References 7 Further readingHistory EditThroughout history metal casting has been used to make tools weapons and religious objects Metal casting history and development can be traced back to Southern Asia China India Pakistan etc 3 Southern Asia traditions and religions relied heavily on statue and relic castings 4 These items were frequently made from a copper alloy laced with lead 5 Since the beginning of metallurgy the majority of castings were simple one to two piece molds fashioned from either stone or ceramics However there is evidence of lost wax castings in numerous ancient civilizations 4 Dancing girl of Mohenjo daro The lost wax process originated in ancient Mesopotamia The earliest known record of lost wax casting is a clay tablet written in cuneiform in the ancient city of Sparta Babylon which specifically records how much wax is needed to cast a key 6 The earliest known castings in the global archaeological record were made in open stone molds 7 There are two types of lost wax methods direct lost wax method and indirect lost wax method The direct molding method is to make the wax material into the same wax mold as the casting by hand or other tools the indirect molding method is to make the wax mold through the mold The direct molding method requires craftsmen to have a high technical level otherwise the quality of castings cannot be guaranteed However the limitation of manual direct molding is that its efficiency is too low to achieve mass production In this regard indirect moulding has advantages In indirect moulding artisans usually make moulds from stone wood clay or other plastic materials 8 Early civilizations discovered lead aided in the fluidity of molten copper allowing them to cast more intricate designs For example the dancing girl of Mohenjo daro is a copper alloy casting that most likely utilizes the lost wax technique 4 Lost wax casting can be dated back to 4000 BC or the Chalcolithic period 4 One of the oldest studied examples of this technique is a 6 000 year old amulet from Indus valley civilization 9 India is attributed as one of the first civilizations to use casting methods to mass produce coins Around the middle of the first millennium BC 1000 BC 1 BC coins used were made from silver but as the millennium progressed the coins shifted to a cast copper alloy 4 New technology was developed to mass produce the new copper coins Introduced was a multi piece stackable coin template mold Multiple molds were placed on top of one another into a clay cylinder so molten metal could be poured down the center filling and solidifying in the open spaces 4 This process allowed one hundred coins to be produced simultaneously 4 In the Middle East and West Africa the lost wax technique was used very early in their metallurgy traditions while China adopted it much later In Western Europe lost wax techniques are considered to have been hardly used especially in comparison to that of the Indus valley civilization 4 There were no pieces of lost wax found in the capital of Anyang during the Shane dynasty 1600 1040 BC while a large amount 100 000 pieces of piece mould fragments were found This led to the conclusion that lost wax was not performed in the capital during this dynasty However the discovery of a mask made using the investment moulding dated at around 1300 BC indicated that the lost wax technique may have influenced other regions in China 10 Historians debate the origin of the development of the cannon but most evidence points to Turkey and Central Asia in the 18th and 19th century The casting process of a cannon is a bit more complex with the use of a clay core a template which has clay moulded around it and then broken out followed by an assembly in a casting pit that involves binding the casting with iron bands 4 Types EditMain article List of manufacturing processes Casting Metal Edit Judenplatz Holocaust Memorial Nameless Library by Rachel Whiteread Concrete cast of books on library shelves turned inside out Main article Casting metalworking In metalworking metal is heated until it becomes liquid and is then poured into a mold The mold is a hollow cavity that includes the desired shape but the mold also includes runners and risers that enable the metal to fill the mold The mold and the metal are then cooled until the metal solidifies The solidified part the casting is then recovered from the mold Subsequent operations remove excess material caused by the casting process such as the runners and risers Plaster concrete or plastic resin Edit Main article Resin casting Plaster and other chemical curing materials such as concrete and plastic resin may be cast using single use waste molds as noted above multiple use piece molds or molds made of small rigid pieces or of flexible material such as latex rubber which is in turn supported by an exterior mold When casting plaster or concrete the material surface is flat and lacks transparency Often topical treatments are applied to the surface For example painting and etching can be used in a way that give the appearance of metal or stone Alternatively the material is altered in its initial casting process and may contain colored sand so as to give an appearance of stone By casting concrete rather than plaster it is possible to create sculptures fountains or seating for outdoor use A simulation of high quality marble may be made using certain chemically set plastic resins for example epoxy or polyester which are thermosetting polymers with powdered stone added for coloration often with multiple colors worked in The latter is a common means of making washstands washstand tops and shower stalls with the skilled working of multiple colors resulting in simulated staining patterns as is often found in natural marble or travertine Fettling EditRaw castings often contain irregularities caused by seams and imperfections in the molds 10 as well as access ports for pouring material into the molds 11 The process of cutting grinding shaving or sanding away these unwanted bits is called fettling 12 13 In modern times robotic processes have been developed to perform some of the more repetitive parts of the fettling process 14 but historically fettlers carried out this arduous work manually 5 and often in conditions dangerous to their health 15 Fettling can add significantly to the cost of the resulting product and designers of molds seek to minimize it through the shape of the mold the material being cast and sometimes by including decorative elements 16 10 Casting process simulation EditCasting process simulation uses numerical methods to calculate cast component quality considering mold filling solidification and cooling and provides a quantitative prediction of casting mechanical properties thermal stresses and distortion Simulation accurately describes a cast component s quality up front before production starts The casting rigging can be designed with respect to the required component properties This has benefits beyond a reduction in pre production sampling as the precise layout of the complete casting system also leads to energy material and tooling savings The software supports the user in component design the determination of melting practice and casting methoding through to pattern and mold making heat treatment and finishing This saves costs along the entire casting manufacturing route Casting process simulation was initially developed at universities starting from the early 70s mainly in Europe and in the U S and is regarded as the most important innovation in casting technology over the last 50 years Since the late 80s commercial programs such as AutoCAST and MAGMA are available which make it possible for foundries to gain new insight into what is happening inside the mold or die during the casting process See also Edit Engineering portalCentrifugal casting industrial Casting technique that is typically used to cast thin walled cylinders Core plug Closure for sand casting core holes on water cooled internal combustion engine blocks Die casting Metal casting process Glass casting Process in which glass objects are cast by directing molten glass into a mould where it solidifies Investment casting Industrial process based on lost wax casting Lost foam casting Type of evaporative pattern casting process Lost wax casting Process by which a duplicate metal sculpture is cast from an original sculpture Molding process Shaping a liquid or plastic material by making it conform to a more rigid mold Plaster Casting Process 17 Sand casting process with use of Plaster to fill gaps Permanent mold casting Metal casting process that employs reusable molds Rapid casting Use of 3D printing to create disposable patterns Sand casting Metal casting process using sand as the mold material Slip casting Technique for forming pottery Squeeze casting Casting method that applies very high pressure to the cooling metalReferences Edit Degarmo E Paul Black J T Kohser Ronald A 2003 Materials and Processes in Manufacturing 9th ed Wiley p 277 ISBN 0 471 65653 4 Ravi B 2005 Metal Casting Computer Aided Design and Analysis 1st ed PHI ISBN 81 203 2726 8 Davey Christopher J 2009 J Mei Th Rehren eds The early history of lost wax casting Metallurgy and Civilisation Eurasia and Beyond London pp 147 154 a b c d e f g h i Craddock Paul T October 8 2014 The Metal Casting Traditions of South Asia Continuity and Innovation Indian Journal of History of Science 50 1 55 82 a b Jane L Bassett Peggy Fogelman David A Scott Ronald C Schmidtling 2008 The Craftsman Revealed Adriaen de Vries Sculptor in Bronze Getty Publications pp 269 ISBN 978 0 89236 919 5 Hunt L B 1980 The Long History of Lost Wax Casting Gold Bulletin p 66 79 Peng Peng 2020 Metalworking in Bronze Age China The Lost Wax Process Cambria Press p 5 Feinberg Wilburt 1983 Lost wax Casting A practitioners manual Thoury M et al 2016 High spatial dynamics photoluminescence imaging reveals the metallurgy of the earliest lost wax cast object Nature Communications 7 doi 10 1038 ncomms13356 a b c Gordon Elliott 2006 Aspects of Ceramic History A Series of Papers Focusing on the Ceramic Artifact As Evidence of Cultural and Technical Development Gordon Elliott pp 52 ISBN 978 0 9557690 0 9 B Ravi 1 January 2005 Metal Casting Computer Aided Design and Analysis PHI Learning Pvt Ltd pp 92 ISBN 978 81 203 2726 9 T F Waters 11 September 2002 Fundamentals of Manufacturing For Engineers CRC Press pp 17 ISBN 978 0 203 50018 7 James T Frane 1994 Craftsman s Illustrated Dictionary of Construction Terms Craftsman Book Company pp 126 ISBN 978 1 57218 008 6 The British Foundryman 1986 p 80 Sidney Pollard 1993 A History of Labour in Sheffield Gregg Revivals pp 284 285 ISBN 978 0 7512 0215 1 Iron and Steel Louis Cassier 1971 p 80 Plaster Casting process Archived from the original on 2020 05 26 Further reading Edit Wikimedia Commons has media related to Casting Campbell John 2003 Casting 2nd ed Butterworth Heinemann ISBN 0 7506 4790 6 Retrieved from https en wikipedia org w index php title Casting amp oldid 1131089126, wikipedia, wiki, book, books, library,

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