In　this　study,　ZnO　ceramics　with　two　types　of　TPMS　structure　(Gyroid　structure　and　Schwartz　P　structure)　were　fabricated　by　3D　printing.　The　solid　content　of　ZnO　ceramics　powder　was　38　wt%.　The　solid　content　of　SR454NS　Acrylic　was　57　wt%.　The　other　components　of　the　slurry　were　photoinitiator,　dispersant　and　sintering　additive.　The　ZnO　ceramics　with　high　densification　could　be　achieved　after　sintering　at　1250　?C　for　2　h.　The　average　grain　size　was　37　?m　and　the　true　density　of　the　printed　ZnO　ceramics　was　4.95　g/cm3.　The　shape　of　printed　ZnO　ceramics　can　be　controlled　and　the　minimum　size　of　thin　rod　is　200　?m.　The　compressive　strength　for　Gyroid　structural　ZnO　ceramic　with　55%　porosity　and　the　Schwartz　P　structural　ZnO　ceramic　was　approximately　6.87　MPa　and　4.02　MPa,　respectively.　The　result　shows　that　the　Gyroid　structural　ZnO　ceramics　can　bear　much　more　deformation　than　the　Schwartz　P　structure　during　the　compression　tests.　The　TPMS　structural　ZnO　ceramics　can　be　used　in　the　field　of　sensing　and　detection　in　the　future.