1、,按一下以編輯母片標題樣式,按一下以編輯母片文字樣式,第二層,第三層,第四層,第五層,*,*,本资料仅供参考,不能作为科学依据。谢谢。本资料仅供参考,不能作为科学依据。本资料仅供参考,不能作为科学依据。谢谢。本资料仅供参考!,按一下以編輯母片標題樣式,按一下以編輯母片文字樣式,第二層,第三層,第四層,第五層,*,*,本资料仅供参考,不能作为科学依据。谢谢。本资料仅供参考,不能作为科学依据。本资料仅供参考,不能作为科学依据。谢谢。本资料仅供参考!,按一下以編輯母片標題樣式,按一下以編輯母片文字樣式,第二層,第三層,第四層,第五層,*,*,本资料仅供参考,不能作为科学依据。谢谢。本资料仅供参考,不
2、能作为科学依据。本资料仅供参考,不能作为科学依据。谢谢。本资料仅供参考!,按一下以編輯母片標題樣式,按一下以編輯母片文字樣式,第二層,第三層,第四層,第五層,*,*,本资料仅供参考,不能作为科学依据。谢谢。本资料仅供参考,不能作为科学依据。本资料仅供参考,不能作为科学依据。谢谢。本资料仅供参考!,按一下以編輯母片標題樣式,按一下以編輯母片文字樣式,第二層,第三層,第四層,第五層,*,*,本资料仅供参考,不能作为科学依据。谢谢。本资料仅供参考,不能作为科学依据。本资料仅供参考,不能作为科学依据。谢谢。本资料仅供参考!,按一下以編輯母片標題樣式,按一下以編輯母片文字樣式,第二層,第三層,第四層,第
3、五層,*,*,本资料仅供参考,不能作为科学依据。谢谢。本资料仅供参考,不能作为科学依据。本资料仅供参考,不能作为科学依据。谢谢。本资料仅供参考!,按一下以編輯母片標題樣式,按一下以編輯母片文字樣式,第二層,第三層,第四層,第五層,*,*,本资料仅供参考,不能作为科学依据。谢谢。本资料仅供参考,不能作为科学依据。本资料仅供参考,不能作为科学依据。谢谢。本资料仅供参考!,Manufacturing Engineering Technology,Metal Casting:Design,Materials and Economics,授課教師:,楊宏智教授,【,本著作除另有註明外,採取,創用,CC,
4、姓名標示非商業性相同方式分享台灣,3.0,版,授權釋出,】,【,本著作除另有註明外,採取,創用,CC,姓名標示非商業性相同方式分享台灣,3.0,版,授權釋出,】,【,本著作除另有註明外,採取,創用,CC,姓名標示非商業性相同方式分享台灣,3.0,版,授權釋出,】,1/17,1,Manufacturing Engineering Technology,機械製造,楊宏智(台大機械系教授),2/17,2,Chapter Outline,Introduction,Design Considerations in Casting,Economics of Casting,3/17,Introductio
5、n,Successful casting practice requires proper control of a large number of variables,Flow of the molten metal in the mold cavities,the gating systems,the rate of cooling,and the gases evolved would influence the quality of a casting,4/17,Design Considerations in Casting,All casting operations share
6、the characteristics of phase change and thermal shrinkage during the casting cycle,But each process will have its own design considerations,Sand casting will require mold erosion and sand inclusions in the casting,Die casting will not have this concern,Defects frequently are random and difficult to
7、reproduce,5/17,Design Considerations in Casting:,General Design Considerations for Castings,2 types of design issues in casting:,Geometric features and tolerances incorporated into the part,Mold features that are needed to produce the desired casting,6/17,Design Considerations in Casting:,General De
8、sign Considerations for Castings,Design of Cast Parts,Corners,angles,and section thickness,Flat areas,Shrinkage,Draft,Dimensional tolerances,Lettering and markings,Finishing operations,7/17,Design Considerations in Casting:,General Design Considerations for Castings,Locating the Parting Line,Parting
9、 line is the line or plane separating the upper(cope)and lower(drag)halves of molds,Parting line should be along a flat plane rather than be contoured,Location is important as it influences mold design,ease of molding,number and shape of cores required,method of support and the gating system,Parting
10、 line should be low for less dense metals and located at mid-height for denser metals,8/17,Design Considerations in Casting:,General Design Considerations for Castings,Locating and Designing Gates,Multiple gates are preferable,Gates should feed into thick sections of castings,A fillet should be used
11、,Gate closest to the sprue should be placed sufficiently far away from the sprue,Minimum gate length should be 3 to 5 times the gate diameter,Curved gates should be avoided,9/17,Runner Design,Runner is a horizontal distribution channel that accepts molten metal from the sprue and delivers it to the
12、gates,It is used to trap dross and keep it from entering the gates and mold cavity,Designing Other Mold Features,Goal in designing a,sprue,is to achieve the required metal flow rates while preventing excessive dross formation,Design Considerations in Casting:,General Design Considerations for Castin
13、gs,10/17,Designing Other Mold Features,Goal in designing a,sprue,is to achieve the required metal flow rates while preventing excessive dross formation,Turbulent flow rates should be avoided,A,pouring basin,is used to ensure uninterrupted metal flow into the sprue,Filters,are used to trap large cont
14、aminants and more laminar flow,Chills,used to speed up solidification of the metal,Design Considerations in Casting:,General Design Considerations for Castings,11/17,Establishing Good Practices,High-quality molten metal is essential for producing superior castings,Pouring of metal should not be inte
15、rrupted,Stress relieving necessary to avoid distortions of castings in critical applications,Design Considerations in Casting:,General Design Considerations for Castings,12/17,Expendable-mold process cool much slower than die casting,Important design considerations are:,Mold Layout,-must be placed l
16、ogically and compactly with gates,Riser Design,-consideration in size and placement of risers,Machining Allowance,-require for additional finishing operations,Design Considerations in Casting:,General Design Considerations for Castings,13/17,Design Considerations in Casting:,Design for Permanent-mol
17、d Casting,Designs may be modified to eliminate the draft for better dimensional accuracy,Die-cast parts are net shaped to remove gates and minor trimming to remove flashing and defects,They do not require a machining allowance,14/17,Design Considerations in Casting:,Computer Modeling of Casting Proc
18、esses,Casting involves complex interactions among material and process variables,A quantitative study of these interactions is essential to the proper design and production of high-quality castings,Studies consist of heat flow,temperature gradients,nucleation and growth of crystals,formation of dend
19、ritic and equiaxed structures,impingement of grains and movement of the liquidsolid interface during solidification,Commercial software programs are Magmasoft,ProCast,Solidia and AFSsolid,15/17,Economics of Casting,Cost of each cast part(,unit cost,)depends on several factors,including materials,equ
20、ipment,and labor,Each of individual factors affects the overall cost of a casting operation,16/17,Economics of Casting,Costs are involved in melting and pouring the molten metal into molds and in heat treating,cleaning,and inspecting the castings,Labor and skills required is also a consideration,Equipment cost per casting will decrease as the number of parts cast increases,High production rate can justify the high cost of dies and machinery,17/17,
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