It is a challenging topic to disconnect a linear polymer selectively at the mechanophore site by an external force in a cold fashion. In this work, the effect of the power output of ultrasonication on the selective cleavage at the centered urfuryl-maleimide DielsAlder (DA) mechanophore of poly(methyl acrylate)s (DA-PMA-a and DA-PMA-b) were quantitatively investigated by comparative study on experimental and simulated chain scission kinetics as well as high-resolution H-1 NMR spectroscopy (600 MHz). At low power output of the ultrasonication (2.10 W), DA-PMA-a with M-n of ca. 2M(lim) (M-lim, below which no further chain scission was observed) presented a DI (degradation index)-t (sonication time) plot with a turnover point at ca. 1.0 and no clear variation of the molecular weight after the turnover, which met well with the calculated center cleavage mode. At 5.52 W, DA-PMA-a and a poly(methyl acrylate) that contained two centered ester bonds (ester-PMA) presented similar DIt plots with turnover points less than 1.0 within same sonication times, while poly(methyl acrylate) with fully carboncarbon chain (PMA) had a turnover at DI value of ca. 0.5. By way of contrast, high power output of the ultrasonication (5.52 W) caused a possible cleavage of ester bonds of DA-PMA-a, which would mask the selective cleavage at the DA site. High-resolution H-1 NMR result of DA-PMA-b (115.8 kDa, M-n was slightly higher than 2Mlim) showed that DA conversions were up to 55% under 2.10 W and 38% under 5.52 W. The kinetics from GPC traces and H-1 NMR results of DA-PMA-b as well as H-1 NMR results of DA-PMA-c (68.4 kDa, M-n was slightly higher than M-lim) under sonication confirmed the observation that low power output favored selective chain scission at DA site. The turnover point in the DIt plot might be used as characteristic parameter to gauge the selective chain scission at mechanophore site for single mechanophore-centered polymers.