In this study, a kind of self-assembly beta nucleating agent (TMB-5) and intense shear field provided by a microinjection machine were simultaneously employed to address the long-standing question about the possibility to cultivate highly oriented beta-crystals. The experimental results were cheerful. For dotlike TMB-5, it preferred to tumble and rotate following Jeffery orbits. In this case, the flow-induced alpha-nuclei in bulk materials were prevailing and only few beta-crystals were generated on the surface of beta nucleating agent or the oriented alpha-crystals. When it came to fibrous TMB-5, it was difficult for slender particles to rotate freely. The stretched polymer chains generated by flow continually deposited on the surface of TMB-5 and became beta-precursors, which further induced adjacent molecules to crystallize into beta-crystals. That is, with the applied flow, the well-aligned fibrous beta nucleating agent replaced the stretched molecules to trigger the oriented epitaxial growth of lamellas, into hybrid shish-kebab composed of beta-crystals.