To　understand　the　reactivity　of　dihydroxylammonium-5,　5＇-bistetrazole-1,　1＇-diolate　(TKX-50)　under　different　stimulation　methods,　the　combustion　and　detonation　reactivity　of　TKX-50　were　investigated　by　using　five　methods,　which　were　programmed　temperature　rise　(DSC-TG)　method,　concentrated　light　ignition　experiment,　closed　bomb　test,　detonator　detonation　and　pulsed　plasma　initiation.　The　results　show　that　the　initial　decomposition　temperature　of　TKX-50　is　218.87.　The　decomposition　process　is　directly　decomposed　from　solid　phase　to　gas　phase,　the　residual　rate　after　decomposition　is　2.85%,　and　the　exothermic　value　is　2273.91J/g.　The　combustion　reaction　time　of　TKX-50　lasts　for　5.5s,　and　it　has　experienced　three　stages:　pyrolysis　reaction　stage　(0-3s),　combustion　stage　(3-4s)　and　reaction　termination　stage　(4-5.5s),　and　some　solid　products　remain　after　decomposition.　The　combustion　duration　of　TKX-50　is　0.91ms,　the　maximum　combustion　pressure　is　164.2MPa,　and　the　maximum　combustion　rate　is　433.45MPa/ms.　The　heat　of　explosion　of　TKX-50　measured　by　detonator　detonation　is　4900J/g,　while　the　heat　of　explosion　measured　by　pulse　plasma　initiation　is　5320J/g.　The　detonation　products　are　mainly　CO2,　CO,　CH4,　N2O,　NH3,　C,　etc,　showing　that　there　is　a　large　difference　for　the　reactivity　of　TKX-50　with　different　stimulation　methods,　and　the　reaction　under　the　constant　heat　and　plasma　strong　stimulation　is　more　complete.　©　2022,　Editorial　Board　of　Journal　of　Explosives　&　Propellants.　All　right　reserved.