The article is devoted to the investigation of a pd-reaction (p+d→3He+γ(5.5MeV)) undergoing in titanium deuteride in astrophysical collision energy region of protons and deuterons ranging from 5.3 to 10.5keV. The experiments have been performed using the Hall NSR TPU (Tomsk, Russia) pulsed plasma accelerator. The number of accelerated protons in 10μs pulse was 5×1014 at a repetition rate of 7×10−2Hz.Detection of 5.5MeV gamma rays was carried out using eight detectors based on crystals of NaI(Tl) (100×100×400mm) placed around the TiD target. For the first time, the dependencies between the astrophysical S-factor and the effective cross-section of the pd-reaction from proton to deuteron collision energy, and the potential electronic screening of the interacting protons and deuterons in titanium deuteride have been measured.