A series of syndiotactic poly(methyl methacrylate) (sPMMA)-polybutadiene (PBD)-sPMMA triblock copolymers, or MBM, have been successfully synthesized by using dilithium initiators (DLi’s) based on the diadduct of tert-butyllithium (t-BuLi) to either 1,3-bis(1-phenylethenyl)benzene (PEB) or m-diisopropenylbenzene (m-DIB). The efficiency of these DLi’s in building up MBM triblock copolymers has been compared under the same experimental conditions, i.e., in a cyclohexane/diethyl ether mixture for the butadiene polymerization at room temperature and in a cyclohexane/THF mixture for the MMA polymerization at -78 degrees C. Although all the synthesized copolymers show a monomodal, symmetric, and very narrow molecular weight distribution, the MBM copolymers synthesized with the m-DIB/t-BuLi diadduct are pure triblocks and show a high tensile strength, in contrast to copolymers initiated by the PEB/t-BuLi diadducts that are of a lower tensile strength and contaminated by MB diblock copolymers. Solvent cast films of MBM prepared with the m-DIB/t-BuLi diadduct are two-phase materials as confirmed by DSC and dynamic mechanical analysis (DMA). Transmission electron microscopy (TEM) shows a spherical morphology at a low sPMMA content, that changes into a cylindrical and finally lamellar morphology upon increasing the sPMMA content. Phase separation is observed for MBM with (M) over bar(n) of the sPMMA blocks as low as 6000. Dependence of tensile strength on copolymer structure and sample preparation has been studied. The smaller sPMMA molecular weight, (M) over bar(n)(PMMA), required for high tensile strength depends on the PBD molecular weight, (M) over bar(n)(PBD), e.g. 12 000 for M(n)(PBD) = 36 000 and 6000 for M(n)(PBD) = 80 000. The upper (M) over bar(PMMA) is ca. 20-25 000, whatever the M(n)(PBD). The optimum tensile strength is observed for (M) over bar(n)(PMMA) = 15 000, independently of M(n)(PBD) in the studied range. As a rule, the tensile strength tends to level off and the Elongation at break starts to decrease when the sPMMA content is increased beyond 35 wt %. At a constant sPMMA content, M(n)(PBD) (> ca. 36 000) does not affect the ultimate tensile properties.