Heavy-ion collisions are powerful tools for studying hypernuclear physics.We develop a dynamical coalescence model coupled with an ART model(version1.0) to study the production rates of light nuclear clusters and hypernuclei in heavy-ion reactions,for instance,the deuteron(d),triton(t),helium(~3He),and hypertriton(_A~3H)in minimum bias(0-80%centrality)~6Li+~(12)C reactions at beam energy of 3.5A GeV.The penalty factor for light clusters is extracted from the yields,and the distributions of 0 angle of particles,which provide direct suggesetions about the location of particle detectors in the near future facility-High Intensity heavy-ion Accelerator Facility(HIAF) are investigated.Our calculation demonstrates that HIAF is suitable for studying hypernuclear physics. Heavy-ion collisions are powerful tools for studying hypernuclear physics. We develop a dynamical coalescence model coupled with an ART model (version 1.0) to study the production rates of light nuclear clusters and hypernuclei in heavy-ion reactions, for instance, the deuteron (d), triton (t), helium (~ 3He), and hypertriton (_A ~ 3H) in minimum bias (0-80% centrality) ~ 6Li + ~ (12) C reactions at beam energy of 3.5A GeV.The penalty factor for light clusters is extracted from the yield, and the distributions of 0 angle of particles, which provide direct suggetions about the location of particle detectors in the near future facility-High Intensity Heavy-Ion Accelerator Facility (HIAF) are investigated. Your calculation demonstrates that HIAF is suitable for studying hypernuclear physics.