This study incorporated the fuzzy Delphi method and analytic hierarch process to construct the indices and frameworks of a digital teaching capability maturity model (D-TCMM). The D-TCMM was based on capability levels and maturity levels (MLs), and aimed to ensure consistency among teachers in their teaching material quality and stability in the learning structures of various course units. Overall, the model can improve the professional competencies of teachers creating teaching materials. According to the data analysis results, the weights of the MLs were .29 for initial, .26 for managed, .08 for defined, .20 for predictable, and .17 for optimizing. At the initial level, the weights of the process areas (PAs) were .46 for the application of digital teaching media, .28 for the concepts and implementation of digital teaching, and .25 for the concepts and application of technology. At the managed level, the weights of the PAs were .41 for the design concepts of teaching processes and materials, .29 for integrating digital information in a teaching environment, and .29 for digital teaching activity management. At the defined level, the PA weights were .43 for learning environment and experience, .38 for teaching and learning in digital courses, and .19 for standardizing digital teaching capabilities. At the predictable level, the PA weights were .38 for student learning evaluation, .32 for the sophistication of professional practices, and .30 for implementation and evaluation of teaching method. Finally, the weights of the PAs at the optimizing level were .56 for the applicability of digital technology and teaching, .26 for the potentials of digital technology, and .18 for the paradigms of digital teaching capabilities. According to the implications of each ML and PA, specific implementation goals were subsequently proposed for future teaching practices.