Liqudmatulesareiquddroplelscoaledbynonwellngmroornanopaftces,andshownon_ stck properties to different sunaces []l Lquid marbes ganed dfierenl applications such as mcrorea.lor, micropump. detection ofbood type, gas, water polulantand pH sensor, uvand N R derector and oressure sens lve adhesive 12-41 Me.han calcompression can be used to fnd good inlormaiion about robuslness of Liqu d marbes [5]. n rhs work hydrophobic zlnc oxde wlh different struclures ncluding. fower ike micropartices and nanobelt partces were prepared. Then lhe prcpared ZnO pances were hvdrophobized using siearic acd Lqu d malbeswere prepared by ro lng 15 pldeonized wateron the hydrophobic ZnO powders Theprepared quid marbes were placed ben{een lwo gasses and corpressed usin! a me.hanftl machne wlh high pecisioi rale conlroi. to investgale the mechan el stength, eLasl cly. p asl c ty and rupture force of quid marbes For investgal on ol e asl c tvand p asllcity,llre lorce ofcomprcssion-decompress on asa functon oflquid marblehelght wasmeasured aldiferenlcycles Thetopvewof th€oigina and.ompressedlquid marbeswas ffonilored us ng a ccD clmera The statc propenes su.h as efedive surface lension and dynamc behavior .e. compression decompress on for severa cyces were nvestig.led. Lt s lound that lhee are some dfferences between the behav or and propertes of iqud madles wlh d fferent ZnO powders The compression decompEsson force pots lor liqud marbe prepared by flower keZno microoartces are symmelrc and sm ar for d trerent cyces (overlay to each olhea, ndcalng eastcity behavior of lhis qud marble The pols ol cohpression decompression lorce tor qud malbles prepared Jrom naio bel ZnO pardcles are not symmetric and do not malch lo each other for d tferenr cyc es ndicatno both eastc aid plasl c behavior ofthe iqu d marble. Higher decrease ol he qhl of iauld marbe prepared wlh nano-belzno padicles h each compression decompresson cycre, slrows its plaslicity behavor loo Presen@ of shoulder n lhe compresson lorce d
