Abstract
Low geometric accuracy is one of the main limitations in double-sided incremental forming (DSIF) with a rough surface finish, long forming time, and excessive sheet thinning. The lost contact between the support tool and the sheet is considered the main reason for the geometric error. Researchers presented different solutions for geometric accuracy improvement, such as toolpath compensation, adaptation, material redistribution, and heat-assisted processes. Toolpath compensations strategies improve geometric precision without adding extra tooling to the setup. It relies on formulas, simulation, and algorithm-based studies to enhance the part accuracy. Toolpath adaptation improves the part accuracy by adding additional equipment such as pneumatically or spring-loaded support tools or changing the conventional toolpath sequence such as accumulative-DSIF (ADSIF) and its variants. It also includes forming multi-region parts with various arrangements. Toolpath adaptation mostly requires experimental trial-and-error experiments to adjust parameters to obtain the desired shape with precision. Material redistribution strategies are effective for high-wall-angle parts. It is the less studied area in the geometric precision context in the DSIF. The heat-assisted process mainly concentrates on hard-to-form material. It can align itself to any toolpath compensation or adaptation strategy. This work aims to provide DSIF variants and studies, which focus on improving geometric accuracy using various methodologies. It includes a brief survey of tool force requirements for different strategies, sheet thickness variation in DSIF, and support tool role on deformation and fracture mechanism. Finally, a brief discussion and future work are suggested based on the insights from several articles.
Highlights
Ideas need to be converted quickly into products and analyzed to meet the requirements of the industrial revolution
In incremental sheet forming (ISF), flat metal sheets are incrementally deformed into complex three-dimensional components using a computer numerically controlled (CNC) generic tool
double-sided incremental forming (DSIF) is still neglected at an industrial scale due to its low geometric accuracy compared to conventional sheet metal forming methods
Summary
Ideas need to be converted quickly into products and analyzed to meet the requirements of the industrial revolution. Manufacturing processes having less changeover time and tooling cost can fulfill the prerequisite of mass customization and prototype development. The prototype allows improvement in the design in the early stages of product development. Conventional manufacturing processes require a long time and capital for small batch production and prototype development. Forming operations require componentspecific and expensive dies as their design and preparation are time-consuming. Incremental sheet forming (ISF) has gained significant attraction due to its capability for prototype and small-batch productions with short lead time and generic tooling. In ISF, flat metal sheets are incrementally deformed into complex three-dimensional components using a computer numerically controlled (CNC) generic tool. Higher formability, less forming forces, high geometric flexibility, Metals 2022, 12, 103 high geometric flexibility, less lead time, low cost for production of customized and lowevtyiilsmcfencehotoggmoaasreanoolalsmrute,msruremlriimaiEEpetredseiroioalx,sxiseecainm:dr:itithrlssiecagssastitotot,riatibiiicnaytnenamnmnliangcegvggiawnptudlelepupeeeeo,m,ib-oprdxd-xlnpoeepotplp,eeene,oiwofeceeenne-rioiaprtnrsattntcrictiiscitnmm.mittdao.oetgiIlirs[hennteen1eartinadncnshec,wf2onr,trptoaaets]afepisahr.sulmnlmmeitepcccgcrareooehoasramfnanonontonearetpndtfsrrfiaesraioiaiuglimdglntssaluchfuiepftgliozteorsrelraieraieaaroactcmsdtmlbnatnea,iailordniopaleiioyninnnnlredfbugpsogdasnecemodpuft(efu(otSfuopSspfeisorPtenrPclntrriadtIoIuIcIytmsFStFSimra,muaF)aiF)tep,nl,riwi,drcozetctioctwanwseniahsontndnsuoooetopg,htfcb-a-bpmpyphaeprInrepeSoroooedaarerFiiad,iaenssn.ndtlpdorigtohFsctolnolytwaeuiyiiselnannlpyrseb,-lbctcivamalaaehrzer,lcouereeieaceeccmeltmdrllurhlonaumiaseimnmepst,mtsnsondefrsteoiteicoriitufatnfiteaaticdaislue,ltuevontuudfradfrmemoiecoryu,wit,reir,,nposnmmesmcpitnottidooon,icorn-inepfnos.etettig[htItpgrhthn1ocSeareer(t.,(Ften2TrseyTrI.em,]eegtPptP.FpphcehIiceIuoanFaaFadaortil)ngt)sr----f,-, aanndd DDSSIIFF. Tathteemaptttesmtoptims tporoimveptrhoevepatrhteapccaurrtaaccycubyrapcyrobceysspirnogceitsisnindgepiteninddeenptleynidnednitflfyerienntdrifefgeiroennst wreegrieonusnwsuecrceesusnfusul.cAcescslofusel.d-Alocolpossetdra-tloegoyp bstarsaetdegoynbsapsaetdiaol nimsppuatlsiael riemsppounlsseesreasnpdonpsaerstainaldlypcaurttiaolulyt bcluatnokuttobalvanoikdtoglaovboaliddegfloorbmaladtieofnorwmaastaiolsnowuansaballesotounimabplreotvoeitmheprSoPvIeF tahcecSuPrIaFcayc[c3u,4ra].cNy a[3s,u4l]e.aNaansdulOeaanacneda Outainliczeeaduaticliirzceudmafecrirecnutmialfehraemntmiael rhinamg fmoremrininggfotoroml ifnogr itmooplrfoovriinmgpgreoovminegtrgiceopmreectirsiicopnr[e5c]i.sDioinffe[5re].nDt rifefseeraerncthreersseharacvheearslshoaevveaalulsaoteedvaoltuhaetrepdaorathmerpetaerrasmsuectehrassstuocohl saiszet,osotlepsisziez,es, tleupbrsiiczaen,tltuybpreic, afonrtmtyinpge,spfoeremdsin, sghsepetetehdisc,ksnheesestesthtiimckantieosns oesntifmoramtioabniolintyf,osrhmeeatbtihliitcyk, nsheeses,t athnidckgneeosms,eatnridc pgreeocmiseiotrnic[2p,r6e–c9is].ioVna[r2io,6u–s9o].pVtiaorniosuwseorpetpiornoswpoesreedparonpdotsreiadleadn;dhtorwiaelevde;rh, poawret vaecrc,upraarctyadccidurnaoctysdigidninfioctansitglyniifimcpanrotlvyeiminpSrPoIvFe. in SPIF
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