PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
27711813-7	2016	All the salts exhibited promising detonation performances (detonation pressure: 28.6 to 34.3 GPa; detonation velocity: 8037 to 8674 m s-1), and the detonation performances of salt 4 were comparable to those of RDX.	Salts	8-13	radixin	Homo sapiens	210-213	
27858028-5	2016	The thermal decomposition behaviors of the salt are tested, indicating that the salt has good thermal stability with a decomposition temperature above 200  C. The enthalpy of formation for the salt is dependent on the combustion heat date measured by oxygen bomb calorimetry with a result of 425.6 kJ mol-1, which is the same level as TKX-50, and four times higher than that of RDX.	Salts	43-47	radixin	Homo sapiens	378-381	
27858028-5	2016	The thermal decomposition behaviors of the salt are tested, indicating that the salt has good thermal stability with a decomposition temperature above 200  C. The enthalpy of formation for the salt is dependent on the combustion heat date measured by oxygen bomb calorimetry with a result of 425.6 kJ mol-1, which is the same level as TKX-50, and four times higher than that of RDX.	Salts	80-84	radixin	Homo sapiens	378-381	
27858028-5	2016	The thermal decomposition behaviors of the salt are tested, indicating that the salt has good thermal stability with a decomposition temperature above 200  C. The enthalpy of formation for the salt is dependent on the combustion heat date measured by oxygen bomb calorimetry with a result of 425.6 kJ mol-1, which is the same level as TKX-50, and four times higher than that of RDX.	Salts	80-84	radixin	Homo sapiens	378-381	
27858028-6	2016	The detonation pressure (P) and detonation velocity (D) of the salt are calculated as 8931 m s-1 and 36.1 GPa, which are higher than those of RDX.	Salts	63-67	radixin	Homo sapiens	142-145